Sun Microsystems Server X4600 User Manual
TM  
Sun Fire X4600/X4600 M2  
Server Architecture  
A Technical White Paper  
May 2007 SunWIN Token # 470898  
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Table of Contents  
Introduction............................................................................................................................................5  
Sun Fire x4000 Server Family Overview............................................................................................................5  
Sun Fire X4600 Overview...................................................................................................................................6  
Sun Fire X4600 Target Markets and Applications..........................................................................................9  
Architecture Overview.........................................................................................................................10  
Sun Fire X4600 Server.....................................................................................................................................10  
CPU Architecture.................................................................................................................................14  
AMD Opteron Processor...................................................................................................................................16  
CPU Packaging...........................................................................................................................................17  
Processor VRM...........................................................................................................................................18  
Memory Architecture........................................................................................................................................18  
x64 Architecture................................................................................................................................................19  
AMD Direct Connect Architecture.....................................................................................................................20  
HyperTransportTM Technology...................................................................................................................21  
Memory Interface........................................................................................................................................21  
Chip-to-Chip Interconnect............................................................................................................................21  
I/O Expansion Capability to High-Speed Industry Buses.............................................................................22  
I/O Subsystem.....................................................................................................................................24  
Sun Fire X4600 I/O Subsystem Overview........................................................................................................24  
Chipsets...........................................................................................................................................................24  
AMD-8132TM HyperTransport PCI-X Tunnel..............................................................................................25  
NVIDIA nForce Professional.......................................................................................................................26  
LSI SAS1064 SAS Controller............................................................................................................................26  
Intel 82546GB Dual Port Gigabit Ethernet Controllers......................................................................................27  
ATI RageTM XL Video......................................................................................................................................28  
SMSC LPC47B272 Super I/O Controller..........................................................................................................29  
PCI-X and PCI-E Expansion Slots....................................................................................................................30  
Sun Fire X4600 Server PCI Expansion Slots...............................................................................................30  
Motherboard........................................................................................................................................32  
Cooling and Power..............................................................................................................................33  
Cooling.............................................................................................................................................................33  
Fans............................................................................................................................................................34  
Power Supplies.................................................................................................................................................35  
ILOM: Integrated Lights Out Management..........................................................................................37  
ILOM Architecture.............................................................................................................................................37  
ILOM Software..................................................................................................................................................38  
In-Band Server Management Interfaces...........................................................................................................39  
Baseboard Management Controller (BMC).......................................................................................................39  
Out-of-Band Server Management Interfaces....................................................................................................39  
Command Line Interface (CLI).........................................................................................................................39  
Web Interface...................................................................................................................................................40  
Remote Keyboard, Video, Mouse, and Storage (RKVMS)................................................................................40  
Lights Out Management (LOM)........................................................................................................................41  
Intelligent Platform Management Interface (IPMI).......................................................................................41  
IPMItool.......................................................................................................................................................42  
SNMP .........................................................................................................................................................42  
Sun N1 System Manager..................................................................................................................................43  
Software Operating Environment........................................................................................................45  
Solaris Operating System Features..................................................................................................................45  
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Key Productivity Features............................................................................................................................46  
Interoperability.............................................................................................................................................47  
Availability...................................................................................................................................................47  
Advanced Networking..................................................................................................................................47  
Bundled Software.............................................................................................................................................47  
Sun Studio (90-Day Trial Version)...............................................................................................................47  
Solaris Flash Software.................................................................................................................................48  
Solaris LIVE! Upgrade Software..................................................................................................................48  
Real-Time Video Creation and Broadcast Support......................................................................................48  
Solaris 10 OS Bundled Desktop Environments.................................................................................................48  
Common Desktop Environment (CDE) Enhancements...............................................................................48  
GNOME 2.0 Desktop Environment..............................................................................................................49  
Solaris OS Licensing and Usage......................................................................................................................49  
Additional Software Included...............................................................................................................51  
Sun Installation Assistant..................................................................................................................................51  
Connector Pinouts...............................................................................................................................52  
USB.............................................................................................................................................................52  
Serial...........................................................................................................................................................52  
10/100 BaseT .............................................................................................................................................52  
Serial Attached SCSI (SAS)........................................................................................................................53  
10/100/1000 BaseT ....................................................................................................................................54  
VGA ............................................................................................................................................................54  
Sun Fire X4600 Rack Mounting Specifications...................................................................................55  
Sun Fire X4600 Server Dimensions....................................................................................................56  
Environmental and Regulatory Compliance........................................................................................57  
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Introduction  
As the first of its kind, the Sun Fire X4600 server is the fastest, most scalable, and energy-efficient four-way to  
16-way x64 (x86 64-bit) server. It scales quickly from two sockets to eight sockets simply by adding processor  
boards, all in a compact 4RU form factor. The new modular processor board for the Sun Fire X4600 M2 server  
allows up to ¼ terabyte of memory in a fully configured system. With its multiple operating system support, exten-  
sive ISV application offerings, time-saving manageability, and availability features, the Sun Fire X4600 server is  
the top midrange solution for server consolidation and virtualization, enterprise applications, and High Perfor-  
mance Computing (HPC).  
Sun Fire x4000 Server Family Overview  
The Sun Fire x64 server line is composed of the industry's premier x64 servers. The Sun Fire x64 server line  
delivers the highest reliability and greater than one-and-a-half times the performance of comparable Intel Xeon-  
based servers, while providing significant savings in power and cooling costs. These Sun servers are based on a  
simplified management system and fast and reliable performance, resulting in better service levels, lower opera-  
tional costs, and better asset utilization.  
The Sun Fire x64 family of servers features x64 performance with 32-bit x86 compatibility, large memory support,  
I/O capability to support low-latency, high-bandwidth interconnects for compute clusters, Integrated Lights Out  
Management with in-band and out-of-band control, and a wide range of peripheral and ISV support. This is the  
only family of x64 industry-standard servers with application portability across the entire family through binary  
compatibility on SolarisTM , Linux, or Windows operating systems.  
The Sun Fire x64 server family also includes an extensive set of RAS (Reliability, Availability, and  
Serviceability) features that reduce hidden serviceability costs by dramatically simplifying system maintenance.  
In addition, the Sun Fire x64 family of servers provides remote lights out server management, including remote  
keyboard, video, mouse, and storage (RKVMS); remote boot; and remote software upgrades using the  
Integrated Lights Out Manager (ILOM) Service Processor.  
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Figure Intro-1: Sun Fire X4000 Server Family  
Customers seeking a business edge can look to Sun to provide smart options for building a simple, secure, and  
standardized IT infrastructure. The Sun Fire x64 family of servers enables standardization of the datacenter by  
providing the unity of vertical scaling with the economies of horizontal scaling, while running any major OS and  
32-bit/64-bit application. Sun continues its efforts to provide customers with solutions to help them realize the  
benefits of a horizontal infrastructure (lower incremental CPU costand OS flexibility) while reducing hidden  
costs and complexities.  
Sun Fire X4600 Overview  
The Sun Fire X4600 is the third member of the Sun Fire X4000 server family. Like its two predecesors, the Sun  
Fire X4100 and X4200 servers, the Sun Fire X4600 is designed to improve the economics of x64 systems while  
setting new standards for performance, reliability, and energy efficiency. The Sun Fire X4600 is a high-  
performance, single- or dual-core platform scalable up to 8 sockets in a 4RU package. The 8 sockets will scale  
to 16 processor cores and up to ¼ terabyte of memory. It features redundant, hot-swappable fan modules and  
redundant, hot-pluggable AC power supplies to enable increased availibility and simplified serviceability. It  
supports an I/O feature set that includes four 10/100/1000 BaseT Gigabit Ethernet ports, a four-channel SAS  
RAID 0/1 disk controller with integrated mirroring, video, USB ports (two front, two rear), and a dedicated serial  
and 10/100BaseT Ethernet remote management port. For further expansion, the Sun Fire X4600 provides two  
low-profile PCI-X slots and six low-profile PCI-E slots for high-performance application I/O. Up to eight single-  
and dual-core AMD Opteron CPUs provide a flexible, high-performance growth path and investment protection  
(32-bit applications are protected while still enabling seamless migration to 64-bit applications).  
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Figure Intro-2: The Sun Fire X4600 Server  
The highly scalable 4- to 16-way Sun Fire X4600 server allows customers to dramatically improve business  
agility and growth without any data center disruption and no change to the operating system, software, rack,  
network infrastructure, or storage connections. The Sun Fire X4600 server can be used to build 5-teraflop (or  
larger) systems.  
Table Intro-1 shows how the new Sun Fire X4600 server compares to the Sun Fire X4100 and X4200 servers.  
Shaded cells indicate differences.  
Table Intro-1: Sun Fire X4100, X4200 and X4600 Servers Features Comparison  
Features  
Form Factor  
Processor  
Sun Fire X4100/X4200  
1/2 RU  
Sun Fire X4600 M2  
4 RU  
Up to two AMD Opteron 800 Series Single-  
or Dual-Core CPUs w/ 1 MB L2 Cache per Dual-Core only CPUs w/ 1MB L2 Cache  
Up to eight AMD Opteron 8000 Series  
Core  
per Core  
AMI BIOS8 (Different revision)  
4 DIMM slots per CPU  
AMI BIOS8 (Different revision)  
4 or 8 DIMM slots per CPU  
BIOS  
Memory DIMM Slots  
Memory Type  
PC3200 400MHz Registered DIMMs with PC6300 667 Mhz Registered DIMMs with  
ECC  
ECC  
1 GB, and 2 GB DIMMs  
1 GB, 2 GB , 4 GB DIMMs  
Memory Module Sizes  
Maximum Memory  
HDD Controller  
HDD Type  
64 GB w/2 GB DIMMs  
256 GB w/4 GB DIMMs  
LSI SAS1064 Serial Attached SCSI (SAS)  
2.5-inch drives (SAS)  
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Features  
HDD Number  
Optical Drive  
NIC Controller  
NICs  
Sun Fire X4100/X4200  
Sun Fire X4600 M2  
Four HDDs  
CD/DVD-ROM  
Dual Intel FW82546GB  
Quad Gigabit Ethernet ports  
ATI Rage XL  
Graphics Controller  
Expansion Slots  
Six PCI-E Low Profile and  
Two PCI-X MD2  
Two USB 2.0 ports (Type A)  
Front I/O  
Rear I/O  
Four Gigabit Ethernet ports (RJ45)  
One 100BaseT Management port (RJ45)  
One RS-232 Serial (RJ45)  
Two USB 2.0 ports (Type A)  
VGA Video port (DB15)  
Redundant Hot Swappable  
4 x 850W  
Power Supply  
System Management  
OS Support  
Service Processor board supporting Graphics redirection, Remote Floppy/CD, IPMI  
2.0, SNMP, CLI and Web interface  
Solaris, Linux, Windows, and VMware  
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Sun Fire X4600 Target Markets and Applications  
The Sun Fire X4600 server provides mission-critical enterprise data center solutions across all industries. It is  
particularly well-suited for the following applications:  
Collaboration  
Email  
Document management  
Server consolidation  
Data collection and analysis  
ERP  
CRM  
Data warehousing  
Databases  
Product development and delivery  
Simulation  
Transaction processing  
Billing  
Customer service  
Application server  
High Performance Computing (HPC)  
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Chapter 1  
Architecture Overview  
Sun Fire X4600 Server  
The Sun Fire X4600 server measures 4 rack-units (6.9 inches/176 mm) high, 17.5 inches (445 mm) wide, and  
24.75 inches (629 mm) deep. It is a 4- to 16-way rack-optimized, x64-based system with a symmetric  
multiprocessor. Cooling is accomplished with internal fans that direct airflow from the front to the back of the  
chassis. I/O ports are located on the rear panel, with additional USB on the front panel. Access to the power  
connections is at the rear of the server. Hard drives and optical storage are accessible from the front of the  
server.  
Figure 1-1: Front View of the Sun Fire X4600  
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Figure 1-2: Rear View of the Sun Fire X4600 Server  
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Figure 1-3: Internal View of the Sun Fire X4600 Server  
The Sun Fire X4600/X4600 M2 server also provides the following system architecture features:  
Sun Fire X4600: Embedded dual-channel DDR1 memory controllers on each CPU to provide maximum  
memory capacity and bandwidth scaling and deliver up to 64 GB of capacity and 51.2 GB/sec. of  
aggregated bandwidth with eight populated CPUs and 2 GB DIMMs.  
Sun Fire X4600 M2: Embedded dual-channel DDR2 memory controllers on each CPU to provide maximum  
memory capacity and bandwidth scaling and deliver up to 256 GB of capacity and up to 85.6 GB/sec. of  
aggregated bandwidth with eight populated CPUs and 4 GB DIMMs.  
TM  
AMD Direct Connect Architecture that directly connects CPU-to-CPU with Coherent HyperTransport links  
to deliver 8 GB/sec. aggregate bandwidth per link, CPU-to-I/O with non-Coherent HyperTransport links to  
deliver 8 GB/sec. aggregate bandwidth per link, CPU-to-memory using the integrated DDR controller, and  
CPU cores to each other on the same die in dual-core processors  
Two PCI-X and six PCI-E slots to deliver high-performance I/O with over 160 GB/sec. of I/O plug-in  
bandwidth  
Embedded quad Gigabit Ethernet and a SAS disk controller to leave the two PCI available for expansion  
needs  
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Embedded management and legacy I/O to offer maximum operational flexibility without compromising PCI  
slots for optional features  
Figure 1-4: Sun Fire X4600 Server Architecture Block Diagram with Eight CPUs  
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Chapter 2  
CPU Architecture  
The Sun Fire X4600 server supports up to eight Single-Core or Dual-Core AMD Opteron Series 800  
processors. Each CPU module has an attached PCB containing:  
1 AMD Opteron CPU and heatsink  
4 DDR1 memory DIMM slots  
1 CPU/RAM VRM  
Airflow redirection baffles for greatest cooling efficiency  
The Sun Fire X4600 M2 server supports up to eight AMD Opteron Series 8000 (Dual-Core and Multi-Core in  
the future) processors. Each CPU module has an attached PCB containing:  
1 AMD Opteron CPU and heatsink  
8 DDR2 memory DIMM slots  
1 CPU/RAM VRM  
Airflow redirection baffles for greatest cooling efficiency  
The CPU module is connected to the system motherboard using a pair of ganged connectors.  
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Figure 2-1: Sun Fire X4600 CPU Module  
Systems configured with four or six processors require filler modules. The filler modules maintain the  
HyperTransport connectivity between all CPUs and provide airflow redirection for efficient cooling throughout  
the system. Figure 2-2 illustrates the placement of CPU and filler modules, physical slot numbering, and the  
CPU enumeration from the BIOS perspective.  
Front of Server  
Slot A  
Slot B  
Slot C  
Slot D  
Slot E  
Slot F  
Slot G  
Slot H  
8
Module 0  
Module 2  
Module 1  
Module 3  
Module 4  
Module 5  
Module 6  
Module 7  
Processors  
6
Module 0  
Module 0  
Module 0  
Module 1  
Filler  
Filler  
Filler  
Module 2  
Module 1  
EMPTY  
Module 3  
Module 2  
EMPTY  
Module 4  
Filler  
Filler  
Filler  
Module 5  
Module 3  
EMPTY  
Processors  
4
Processors  
2
Module 1  
EMPTY  
EMPTY  
EMPTY  
Processors  
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Front of Server  
Rear of Server  
Figure 2-2: CPU Module Placement  
Note: The Sun Fire X4600 server supports four and eight CPU configurations. Two, four, six, and eight CPU configurations  
are supported in the Sun Fire X4600 M2.  
In Sun Fire X4600 systems, each processor contains an integrated memory controller that supports a 128-bit-  
wide path to memory and three 16x16-bit HyperTransport links. Each HyperTransport link runs at speeds up to  
1 GHz and is clocked on both edges of the clock pulse, which allows for a maximum of 4 GB/sec. (2  
gigatransfers/sec., 2 bytes wide) throughput in each direction (8 GB/sec. aggregate data rate bi-directionally).  
Memory support is for registered DDR400 184-pin SDRAM DIMMs. There are four DIMM slots per CPU.  
DIMMS are accessed in pairs with an available memory bandwidth up to 6.4 GB/sec. (with PC3200) per  
processor.  
Figure 2-3: 8-DIMM Processor Board  
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In Sun Fire X4600 M2 systems, each processor contains an integrated memory controller that supports a 128-  
bit-wide path to memory and three 16x16-bit HyperTransport links. Each HyperTransport link runs at speeds up  
to 1 GHz and is clocked on both edges of the clock pulse, which allows for a maximum of 4 GB/sec. (2  
gigatransfers/sec., 2 bytes wide) throughput in each direction (8 GB/sec. aggregate data rate bi-directionally).  
Memory support is for registered DDR2/667 240-pin SDRAM DIMMs. There are four or eight DIMM slots per  
CPU. DIMMS are accessed in pairs with an available memory bandwidth up to 10.7 GB/sec. (with PC6300) per  
processor.  
Memory capacity scales with the number of processors, so memory attached to an unpopulated processor  
socket is unaddressable. As a result, a single processor machine can support a maximum of four DIMMs, while  
a fully-populated, eight-CPU server can support a maximum of 32 or 64 DIMMS (X4600 or X4600 M2) with up  
to 256 GB (64 x 4GB) of memory.  
The AMD processor does support up to eight DIMMs per CPU. However, using more than four DIMMs requires  
clocking down DIMM speed to 533 MHz, even if the DIMMs used are of the highest speed bin.  
AMD Opteron Processor  
Features of the AMD Opteron processor in the Sun Fire X4600 and Sun Fire X4600 M2 servers include:  
Up to eight Single-Core or Dual-Core AMD Opteron 800 Series processors (Sun Fire X4600).  
Up to eight Dual-Core AMD Opteron 8000 Series processors (Sun Fire X4600 M2).  
x64 architecture (64-bit extensions) with AMD Direct Connect Architecture using HyperTransport  
Technology.  
PowerNow! support to dynamically adjust performance based on CPU utilization (voltage and frequency are  
adjusted depending on kernal load). By default, PowerNow! is disabled in BIOS.  
Native support for 32-bit x86 ISA, SSE, SSE2, MMX, and 3DNow!  
Three HyperTransport links supporting up to 8 GB/sec. of direct inter-processor and I/O bandwidth per link.  
ECC protection for L1 data cache, L2 unified cache, and DRAM with hardware scrubbing of all ECC  
protected arrays.  
CPU L1 Instruction cache: 64 KB two-way associative, parity protected with advanced branch prediction.  
CPU L1 Data cache: 64 KB two-way associative, ECC protected.  
Two 64-bit operations per cycle, three-cycle latency.  
CPU L2 cache: 1 MB 16-way associative, ECC protected.  
Exclusive cache architecture storage, in addition to L1 caches.  
256 TB of memory address space.  
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Figure 2-4: Single-Core AMD Opteron Processor Architecture  
The Sun Fire X4600 server supports both Single-Core and Dual-Core AMD Opteron 800 Series processors.  
The Sun Fire X4600 M2 server supports Dual-Core AMD Opteron 8000 Series processors. From the start,  
AMD64 processors were designed to add a second core—the port already existed on the crossbar/SRI. Dual-  
core AMD Opteron processors have unique instances of L1 cache (I-cache and D-cache) and L2 cache for  
each CPU core. Features of the Dual-Core AMD Opteron processor include:  
Socket compatibility with existing 940-pin sockets that are compatible with 90nm single-core processor  
architectures  
One die with two CPU cores  
The same power requirements as single-core CPUs  
Individual L1 Instruction cache per CPU core  
Individual L1 Data cache per CPU core  
Individual 1-MB L2 cache per CPU core  
Shared memory controller and HyperTransport interconnects for two cores  
Fully utilized memory and HyperTransport bandwidths  
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Figure 2-5: Dual-Core AMD Opteron Processor Architecture  
Note: Sun Fire X4600 servers support 95 W and 120 W 90 nm technology package infrastructure AMD Opteron Rev E and  
Rev F processors only.  
CPU Packaging  
AMD Opteron 800 series processor packaging specifications include:  
940-pin lidded organic micro PGA  
1.27 mm pin pitch  
31 x 31 row pin array  
40 mm x 40 mm organic substrate  
Organic C4 die attachment  
16.5 mm x 11.3 mm die size  
AMD Opteron 8000 series processor packaging specifications include:  
1207-pin organic land Grid Array (OLGA)  
1.1 mm pin pitch  
35 x 35 row pin array  
40 mm x 40 mm organic substrate  
Organic C4 die attachment  
16.5 mm x 11.3 mm die size  
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Processor VRM  
Each processor receives core voltage input from an individual voltage regulator module (VRM). The VRMs  
regulate the system current and voltage according to the VID code output by the CPU package. The VRM is a  
DC-to-DC point-of-load convertor specified for +12 Volt input and programmable 100 Amp output. The VRM is  
different on the new 8-DIMM Processor Boards to accommodate the additional memory requirements.  
Memory Architecture  
Each CPU includes a low-latency, high-bandwidth, integrated memory controller that reduces latencies during  
memory access over traditional Intel front-side bus-based memory controllers, and each supports up to four  
ECC Registered DDR400 (Sun Fire X4600) or up to eight ECC Registered DDR2/667 (Sun Fire X4600 M2)  
memory modules. Although the AMD Opteron processor's memory controller works in 64-bit or 128-bit mode  
ECC operation, for best performance results, it is recommended to run 128-bit ECC operation mode. To run in  
128-bit mode, DIMMs should be populated in pairs such that they occupy one-half of the AMD Opteron  
processor's 128-bit controller interface. The controller supports 1 bit per byte ECC and supports DDR400  
(PC3200) registered DDR SDRAM modules. The Sun Fire X4600 uses DDR400 (PC3200) registered DDR  
SDRAM modules and the Sun Fire X4600 M2 uses DDR2/667 (PC2-5300) registered DDR SDRAM modules  
The Sun Fire X4600 server has 4 DDR DIMM slots per CPU that are color-coded white and black to indicate  
population order (white = 0,1 and black = 2,3; white pair first). LED fault indicators controlled by the ILOM  
Service Processor provide the ability to easily identify failed DIMM modules. Memory capacity scales with the  
number of processors, so memory attached to an unpopulated processor slot is unaddressable. As a result, an  
dual-socket machine can support a maximum of eight DIMMs. A fully populated, eight-CPU server supports a  
maximum of 32 DIMMS or 128 GB of memory.  
Figure 2-6: Logical View of Sun Fire X4600 8-DIMM Memory  
The Sun Fire X4600 M2 server has a new processor board that supports 8 DDR DIMM slots per CPU that are  
color-coded white and black to indicate population order (black = 0,1, 2, 3 and white = 4, 5, 6, 7). Memory is  
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populated in pairs in memory slots from the top of the board toward the processor heat sink at bottom of the  
board. Memory slots should be populated with D7 and D6 first, then D5 and D4, then D3 and D2, and finally D1  
and D0 next to the processor heat sink. LED fault indicators controlled by the ILOM Service Processor provide  
the ability to easily identify failed DIMM modules. Memory capacity scales with the number of processors, so  
memory attached to an unpopulated processor slot is unaddressable. As a result, a dual-socket machine can  
support a maximum of sixteen DIMMs.  
A fully populated, eight-CPU server supports a maximum of 64 DIMMS or 256 GB of memory. With just two or  
four DIMMs populated, the system runs memory at 667 MHz. With 6 or 8 DIMMs populated, the system runs  
memory at 533 MHz. The white group (D7-D4) of 4 DIMMs must have the same size DIMMs (1GB, 2GB, or  
4GB). The black (D3-D0) group of DIMM slots must have the same size DIMMs but can be a different size  
DIMMs than the white group of DIMMS.  
Memory is populated in pairs  
Order of  
installation  
DIMM Slots  
1: D7, D6  
2: D5, D4  
3: D3, D2  
4: D1, D0  
CPU and  
integrated  
Heatsink  
Figure 2-7: 8 DIMM Processor Board with Memory Installation Order  
Other features of the Sun Fire X4600 and Sun Fire X4600 M2 servers memory architecture include:  
Dedicated on-die 128-bit wide DDR memory controller  
Memory bandwidth up to 6.4 GB/sec. @ DDR400 (Sun Fire X4600)  
Memory bandwidth up to 10.7 GB/sec. @ DDR2/667 (Sun Fire X4600 M2)  
Under 80 ns latency  
Registered ECC DDR400 (PC3200) supported (Sun Fire X4600)  
Registered ECC DDR2/667 (PC2-5300) supported (Sun Fire X4600 M2)  
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512 MB to 2 GB low profile (1.2 inch/3.05 cm) DIMM support  
Up to 32 GB per CPU in with 4 GB DIMMs in 8 DIMM slots per CPU  
Single supply (2.50 VDC)  
Standard SPD (VCC-SPD=3.3V)  
x64 Architecture  
The x64 architecture is an x86-compatible architecture that enables simultaneous 32-and 64-bit computing. It  
enables end users to run their existing installed base of 32-bit applications and operating systems at peak  
performance, while providing a migration path that is 64-bit capable. It is designed to enable 64-bit computing  
while remaining compatible with the vast x86 software infrastructure. x64 architecture represents a new class of  
computing, enabling a single architecture across 32- and 64-bit environments.  
The x64 Instruction Set Architecture (ISA) extends the existing x86 ISA and natively executes 32-bit code with  
no emulation mode to degrade performance. For 32-bit software that does not require immediate 64-bit  
implementations, x64 processor-based systems are designed to provide full application performance while  
continuing to improve with x64 platform performance enhancements.  
Many applications encounter architectural barriers that prevent efficient performance scaling. The x64 ISA is  
designed to allow continued performance scaling for applications that demand multiprocessor scalability, larger  
addressable memory, better multimedia performance, or improvements in computational accuracy.  
The x64 ISA has been designed for applications that:  
Need large memory addressing to handle data sets larger then 3 GB per process (financial and scientific  
modeling applications)  
Must manage a large number of concurrent users or application threads, such as large-scale, thin-client  
solutions, large databases, data warehouse applications for solutions in customer relationship management  
(CRM), supply chain management (SCM), enterprise resource planning (ERP), and digital rights  
management (DRM) systems  
Require real-time encryption and decryption for enhanced security, including e-commerce and protection of  
private or classified data  
Require mathematical precision and floating-point performance, including modeling, simulation, statistics  
and financial analysis, imaging/video/signal processing, physics, medical research, telecommunications,  
encryption, and compression  
Require large, high-power database performance, including decision support, searching and indexing,  
document and content management, and voice recognition  
Require x86 compatibility or the economies of scale of x86 as well as the large memory addressing  
capabilities of 64-bit computing, including many high-performance computing (HPC) cluster applications  
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Provide digital content creation capabilities such as computer-aided design (CAD), computer-aided  
manufacturing (CAM), and computer-aided engineering (CAE), digital music production and video editing,  
and real-time media streaming solutions  
Require maximum performance for realistic and cinematic consumer experiences, including computer  
games, digital video, and real-time collaboration  
x64 processors are designed to maintain full compatibility with x86 while providing the architectural enhance-  
ments that provide world-class 64-bit performance. With the x64 ISA, relevant instructions and encodings have  
evolved to support 64-bits, increasing the resources available to hardware and software. Major enhancements  
over legacy x86 include:  
Sixteen 64-bit general-purpose integer registers that quadruple the general purpose register space available  
to applications and device drivers as compared to x86 systems  
Sixteen 128-bit XMM registers for enhanced multimedia performance to double the register space of any  
current SSE/SSE2 implementation  
Full 64-bit virtual address space with 40 bits of physical memory addressing that can support systems with  
up to 4 petabytes of physical memory—65535 times the amount of RAM supported by 32-bit x86 systems  
64 -bit operating systems to provide full, transparent, and simultaneous 32-bit and 64-bit platform application  
multitasking  
x64 processors include HyperTransport Technology and are designed for flexibility and scalability. HyperTrans-  
port Technology provides links-based multiprocessing, simplifying the design of multiprocessor workstations and  
servers. Compatibility with x86 makes the x64 computing platform the first 64-bit platform designed to be compati-  
ble with mainstream PC applications while offering world-class performance, making it suitable for solutions rang-  
ing from consumer client PCs to high-performance clusters. The combination of flexibility and scalability recon-  
ciles the broad range of capability and performance requirements IT professionals face today.  
AMD Direct Connect Architecture  
AMD Direct Connect Architecture helps eliminate the bottlenecks inherent in a front-side bus by directly  
connecting the processors, the memory controller, and the I/O to the CPU to enable overall system  
performance and efficiency. Directly connected CPUs provide more linear, symmetrical multiprocessing. A  
memory controller directly connected to a CPU optimizes memory performance, while an I/O directly connected  
to a CPU provides more balanced throughput and performance. Dual-core processors extend the benefits of  
the AMD Direct Connect Architecture by connecting two CPU cores to each other on one die to reduce  
latencies between those cores.  
TM  
HyperTransport Technology  
TM  
HyperTransport Technology is a high-speed, high-performance, point- to-point link for directly connecting  
integrated circuits. HyperTransport Technology also directly connects the I/O to the processors at a rate of up  
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to 8 GB/sec. aggregate bandwidth per link, enabling a peak bandwidth of 24 GB/sec. per processor. The AMD  
Opteron processor with HyperTransport Technology provides a scalable direct connection between processors,  
I/O subsystems, and other chipsets. HyperTransport technology helps reduce the number of buses in a system,  
which can reduce system bottlenecks and enable today's faster microprocessors to use system memory more  
efficiently in high-end multiprocessor systems.  
Memory Interface  
In traditional x86 Northbridge/Southbridge architectures, processors share a memory controller and are not  
directly connected to one another. Memory transactions must propogate through the Northbridge chip fabric.  
This presents a bottleneck at the front-side bus that greatly reduces productivity and performance potential. In a  
Direct Connect Architecture, each CPU has its own integrated memory controller, which allows for more linear,  
symmetrical multiprocessing and optimized memory performance. This direct connection to the memory  
controller significantly reduces the memory latency seen by the processor. Latency will continue to drop as the  
processor frequency scales.  
Additionally, hardware and software memory pre-fetching mechanisms can further reduce the effective memory  
latency seen by the processor. This reduction in memory latency, coupled with the additional increase in  
memory bandwidth available directly to the processor (resulting from this platform architecture design  
optimization), is critical, as it greatly enhances system performance across all application segments.  
Chip-to-Chip Interconnect  
Current interface schemes offer throughput performance from 266 MB/sec. to 1 GB/sec. Although desktop  
platforms may find these rates sufficient, workstation, server, and other future platforms require a more robust  
interface. The simultaneous integration of high-speed technologies (such as Gigabit Ethernet, PCI-X, and the  
InfiniBand Architecture) onto high-end platforms will quickly dwarf the bandwidth capabilities of existing interfaces.  
Direct Connect Architecture using HyperTransport Technology provides a high-speed, chip- to-chip interconnect  
that virtually eliminates the I/O performance bottleneck while providing ample performance headroom for future  
growth.  
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Figure 2-7: Intel vs. Opteron Architectures  
I/O Expansion Capability to High-Speed Industry Buses  
The traditional Northbridge/Southbridge architecture is not intended to support more than two core-logic  
elements. Adding additional high-speed functionality (such as Gigabit Ethernet, PCI-X, the InfiniBand  
Architecture, or any combination thereof) would have to occur in one of three ways:  
The functionality would have to be attached to an existing bus interface such as the PCI bus. However, an  
existing bus may not have sufficient bandwidth to support high-speed technologies, especially in instances  
in which multiple buses or combinations of buses must be supported simultaneously.  
The functionality would have to be directly attached to the higher speed proprietary chip-to-chip interconnect  
bus via a bridging device. However, the proprietary nature of this solution may limit the number of  
components available from vendors, thus impacting cost and availability.  
The functionality would have to be integrated into one of the core logic components. This solution is the  
least flexible, as a wide range of components would have to be created for each desired combination of  
feature-set buses.  
HyperTransport Technology, an industry standard, provides system designers a high-speed, daisy-chained  
interconnect between system components. Specific components can be connected in a building-block fashion  
to achieve a platform with specific feature-set and performance objectives.  
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Figure 2-7: Sample HyperTransport Technology Architecture Block Diagram  
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Chapter 3  
I/O Subsystem  
Sun Fire X4600 I/O Subsystem Overview  
The Sun Fire X4600 I/O subsystem is connected to the CPU complex through a HyperTransport link from  
processors A and H. The I/O subsystem consists of the following components:  
One tunneling HyperTransport bridge (AMD-8132 HyperTransport PCI-X Tunnels)  
A HyperTransport-attached Southbridge component (NVIDIA nForce4 Professional 2200)  
A HyperTransport-attached Southbridge component (NVIDIA nForce4 Professional 2050)  
Flash memory for the BIOS  
Additional motherboard embedded peripheral I/O consisting of:  
One quad channel SAS RAID controller (LSI SAS1064) attached to one of the AMD-8132 PCI-X  
Tunnels on a shared bus with the PCI-X slot 0.  
Two 10/100/1000 dual Gigabit Ethernet MAC/PHY devices (Intel FW82546GB NIC)  
A video controller device attached to the PCI bus of the Southbridge (ATI Rage XL)  
A Super I/O device connecting the Service Processor to the NVIDIA nForce4 Professional 2200 chip  
Figure 3-1: Sun Fire X4600 Subsystem  
Chipsets  
The Sun Fire X4600 Server chipsets architecture consists of:  
HyperTransport interconnects (previously discussed)  
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TM  
AMD-8132 HyperTransport PCI-X Tunnel  
NVIDIA nForce4 Professional 2200  
NVIDIA nForce4 Professional 2050  
TM  
AMD-8132 HyperTransport PCI-X Tunnel  
The AMD-8132 HyperTransport PCI-X 2.0 tunnel is a high-speed device that provides two independent, high-  
performance PCI-X bus bridges, integrated with a high-speed HyperTransport technology tunnel. Designed for  
operation in modes 1 and 2, the AMD-8132 component brings high-performance PCI-X 2.0 connectivity to AMD  
Opteron processor-based systems with increased throughput, improved RAS capabilities, robust data  
management, and enhanced HyperTransport technology connectivity. As shown in Figure 3-2, the front-end  
HyperTransport interface (Side A) provides a configurable 16-bit wide communication path to the host, offering  
up to 8 GB/sec. of aggregate bandwidth. Similarly, the back-end HyperTransport interface (Side B) provides a  
configurable 16-bit wide communication path to a downstream device, offering up to 8 GB/sec. of aggregate  
bandwidth.  
The AMD-8132 HyperTransport PCI-X Tunnel provides high-speed PCI-X capability and offers the following  
features:  
16-bit HyperTransport interfaces (Side A and B) offering a maximum aggregate bandwidth up to 8 GB/sec.  
on each side  
Two PCI-X bridges (A and B), each of which supports a 64-bit data bus  
Each bridge also supports Mode 1 PCI-X, conventional PCI protocol, and Mode 2 operation  
Each bridge supports independent transfer rates and operational modes:  
In PCI-X Mode 1, bridges support transfer rates of 133, 100, 66, and 50 MHz  
In PCI mode, bridges support transfer rates of 66, 50, 33, and 25 MHz  
37.5 x 37.5 mm, 829-pin BGA package  
3.3 volt PCI-X signaling; 1.2 volt link signaling; 1.8 volt core  
Figure 3-2: AMD-8132 HyperTransport PCI-X Tunnel Architecture Block Diagram  
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NVIDIA nForce Professional  
The Sun Fire X4600 also uses the following NVIDIA nForce Professional chipsets:  
NVIDIA nForce 2200  
NVIDIA nForce 2050  
Both the NVIDIA nForce Professional 2200 and NVIDIA nForce Professional 2050 MCPs (media and communi-  
cations processors) provide I/O connectivity to a CPU via a 1-GHz, 8-GB/sec. HyperTransport connection.  
The NVIDIA nForce Professional 2200 attaches to the AMD 8132 PCI-X tunnel, while the NVIDIA nForce Pro-  
fessional 2050 attaches to CPU H.  
The NVIDIA nForce Professional 2200 supports the following features:  
Three PCI-E ports (two 8-lane and one 4-lane)  
Independent IDE connection to DVD  
LPC connection to Super I/O  
Six USB 2.0 ports (three for external use and three for ILOM)  
PCI connection to ATI Rage XL  
The NVIDIA nForce Professional 2050 supports the following features:  
Three PCI-E ports (two 8-lane and one 4-lane)  
LSI SAS1064 SAS Controller  
Sun Fire X4600 servers include an integrated LSI SAS1064 4-port 3-GB/sec. SAS HW RAID disk controller.  
The LSI SAS1064 is a versatile controller that provides 4 SAS ports capable of 3 GB/sec. data transfers for  
each phys, for a total maximum bandwidth of 12 GB/sec.  
SAS features of the LSI SAS1064 include:  
Four fully independent phys  
Support for 3 GB/sec. SAS data transfers for each phys  
High-performance, serial, point-to-point, enterprise-level storage interface  
Simplified cabling between devices  
Data transfers using SCSI information units  
133 MHz 64-bit PCI-X interface (shared bus with PCI-X 100 MHz slots)  
Integrated RAID0 and RAID1 solutions provide Integrated Mirroring technology and Integrated Striping  
technology  
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Figure 3-4: LSI SAS1064 Architecture Block Diagram  
Although the LSI SAS1064 controller is capable of supporting both SAS and SATA drive types, the Sun Fire  
X4600 server will only support the SAS hard disk drives, which provide higher performance and better reliabil-  
ity. Currently, high-density, 10,000-RPM, 73-GB hard disks are supported.  
Figure 3-5: Sun Fire X4600 Hard Disk Drives  
Intel 82546GB Dual Port Gigabit Ethernet Controllers  
Sun Fire X4600 server is equipped with two Intel 82546GB Dual Port Gigabit Ethernet controllers that provide  
quad Gigabit Ethernet interfaces to the server platform. These servers are the first x64 rack-optimized servers  
available with four on-board Gigabit Ethernet ports for reducing network complexity. The Intel 82546GB Dual  
Port Gigabit Ethernet controller provides two 64-bit fully integrated Gigabit Ethernet Media Access Control  
(MAC) and physical layer (PHY) functions. It is capable of transmitting and receiving data at  
10/100/1000MB/sec. data rate with half or full duplex capability. Additional features of the Intel 82546GB Dual  
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Port Gigabit Ethernet controller include:  
802.3ab PHY compliance and compatibility (CAT-5 use)  
802.3ab auto-negotiation  
802.3x full-duplex flow control  
802.9q VLAN tag insertion, stripping, and packet filtering  
Preboot eXecution Environment (PXE) Flash Interface support (32- and 64-bit)  
Figure 3-6: Intel 82546GB Dual Port Gigabit Ethernet Controller Architecture Block Diagram  
ATI Rage XL Video  
The Sun Fire X4600 server uses the ATI Rage XL graphics controller to deliver 2D and 3D graphics  
acceleration. The DVI port is connected to the service processor for remote graphics redirection. The ATI Rage  
XL has the following features:  
64-bit 125 MHz memory clock  
8 MB external memory  
64-bit SDR (SDRAM/SGRAM) memory path  
64-bit AGP/PCI bus  
Integrated TMDS: DVI, DFP, and VESA P&D interface  
Support for 24-bit TTL  
1600x1200 maximum resolution  
16.7M maximum color depth  
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1024x768 TMDS  
Figure 3-7: ATI Rage XL Architecture Block Diagram  
SMSC LPC47B272 Super I/O Controller  
The Super I/O device offers multiple I/O functions required to provide legacy I/O devices to the operating  
environment. On the Sun Fire X4600 servers, it provides the following:  
Floppy disk  
Serial port connection between SP and NVIDIA nForce Professional 2200  
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PCI-X and PCI-E Expansion Slots  
The PCI slots on the Sun Fire X4600 server use a 3.3 Volt signaling bus. Therefore, they support only 3.3 Volt  
keyed expansion cards. The use of 5 Volt keyed expansion cards is unsupported and will result in damage to  
the motherboard.  
The PCI-X slots accomodate expansion cards which adhere to the MD2 form factor standard. MD2 PCI-X cards  
are a maximum length of 169.3 mm (6.7 inches) and a maximun width of 51.5 mm (2.5 inches). The PCI-E  
slots accomodate expansion cards which adhere to the low profile form factor standard. Low profile PCI-E  
cards are a maximum length of 165.65 mm (6.65 inches) and a maximum width of 69.9 mm (2.731 inches).  
Sun Fire X4600 Server PCI Expansion Slots  
The Sun Fire X4600 server has eight PCI expansion slots: 2x PCI-X and 6x PCI-E. All eight slots are capable of  
32- or 64-bit operation and support PCI or PCI-X and PCI-E expansion slots. The combination of PCI-X and  
PCI-E expansion capabilities enables more flexibility to support both legacy PCI/PCI-X connectivity as well as  
higher speed next-generation PCI-E interconnetcs for maximum I/O options and throughput.  
Figure 3-8: Sun Fire X4600 PCI Expansion Slots  
From the rear of the server, the PCI-X slots are located in the leftmost position. The six PCI-E slots are oriented  
in two sets of three. While all PCI-E slots are implemented using x8 lane wide slots, there are electrical  
difference among the slots in terms of the bandwidth they support. As expected, the two left slots are x8 width,  
but the right slots in the trio are electrically x4 lane width. This physical x8 lane slot with x4 lane electrical  
connectivity is known as a soft 8 slot.  
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Figure 3-9: PCI Expansion Slot Locations  
The two PCI-X slots have a maximum operational speed of 100 MHz. It is important to note that if an expansion  
card that operates at speeds less than 100 MHz is inserted into these slots, then the transfer speed along the  
entire bus will be degraded, affecting embedded disk performance. Since the shared bus speed will be lowered  
to the lowest common denominator, a 33 MHz expansion card will degrade performance more than a 66 MHz  
expansion card.  
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Chapter 4  
Motherboard  
All control and datapath functionality, with the exception of the disk connectors and CPU module boards, reside  
on the motherboard. There are sockets for connecting each of the 8 CPUs that are interconnected through AMD's  
TM  
HyperTransport technology. There are also HyperTransport links to the PCI-X bridge and the Southbridge  
chipsets. All external connections, with the exception of power, disks, and front panel I/O, come into the  
motherboard.  
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Figure 4-1: Sun Fire X4600 Motherboard Block Diagram  
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Chapter 5  
Cooling and Power  
Typical heat dissipation and power consumption metrics for a Sun Fire X4600 server equipped with eight  
Dual-core AMD Opteron processors and 32 GB RAM are as follows:  
UL Maximum Power: 1975 W  
Typical Power Consumption: 1400 W  
Typical Heat Dissipation: 5850 BTU/hr  
Ambient Temperature: 5-32 C  
Cooling  
The chassis of the Sun Fire X4600 server is segregated by an air divider into two distinct chambers: the  
motherboard/PCI and fan chamber and the Power Supply Unit (PSU) and storage chamber. Both areas are  
front-to-back air-cooled. The PSU and storage chamber is cooled by individual fans on the back of each power  
supply. Air is drawn through the front of the server by these rear-located fans. The motherboard/PCI and fan  
chamber is cooled by redundant rows of fans mounted in front of the server behind the bezel. Approximately  
200 CFM of airflow is provided to cool the system.  
Figure 5-1: Airflow Diagram of Sun Fire X4600 Server  
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Because heat is so destructive to electronic components, lowering operating temperature will increase reliabil-  
ity. Sun's cooling design enables the CPUs to operate approximately 15% more efficiently.  
Fans  
Cooling fans in the Sun Fire X4600 server are positioned in two rows for redundancy just behind the front bezel.  
They are hot-swappable, and each fan module has an LED fault indicator. The fans are accessible from the top  
top of the server, which enables the fans to be accessed without interrupting system operation. Additionally, it  
makes it possible to service fans by only partially removing the server from the rack. This allows all cabling to  
remain in place and prevents disturbing any non-hot-swappable components.  
Figure 5-2: Sun Fire X4600 Cooling Fans  
Fan speed is modulated by the Service Processor with Pulse Width Modulation by an ADM 1026 sensor chip.  
All fans are controlled with the same PWM frequency so they all operate at the same speed. The ADM 1026  
device uses readings from thre following three sensors to control the fan speed: Front Panel Ambient  
Temperature, CPU 0 Die Temperature, and CPU 1 Die Temperature. The Service Processor reads the fan  
speeds and turns the fan fault LED on if the RPM is under a set threshold.  
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Each row of fan trays is occupied by two fan modules for a total of four cooling fans. In a Sun Fire X4600  
server, the fan modules are populated by 172 x 160 x 51mm fans.  
Figure 5-3: Sun Fire X4600 Server Cooling Fan Layout  
Note: Do not operate the system for more than 60 seconds when a fan tray 2 or 3 is removed.  
Power Supplies  
The Sun Fire X4600 server is powered by dual redundant hot-swappable power supplies. The server requires  
four power supply units (PSUs) for N+N redundancy, but up to two PSUs to power the entire system. For  
optimal redundancy, two separate circuits should be used to eliminate dependence on a single electrical circuit  
and provide for consistent 2+2 redundancy with the PSUs themselves.  
The new 950 watt high efficiency power supplies are shipped with each system that contain the 8-DIMM  
processor boards. This new power supply offers high power output to support 2+2 redundancy for a system  
with fully populated 8 processors and 64 DIMMs configuration. All other systems with 4-DIMM processor  
boards still have 850 watt power supplies. When upgrading the Sun Fire X4600 M2 from 4-DIMM to 8-DIMM  
processor boards, it is important to make sure the PSUs are upgraded from the 850 watt to the new 950 watt  
power supplies.  
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Figure 5-4: Sun Fire X4600 Power Supply Units  
Power supplies are monitored and managed by ILOM. However, PSU fans are NOT individually managed by  
ILOM. Instead, they are considered part of the PSU unit. Therefore, a failure of a PSU fan is reported by ILOM as  
a failure of the entire PSU unit.  
The power supplies have the following features:  
850 Watts high efficiency PSUs for Sun Fire X4600  
950 Watts high efficiency PSUs for Sun Fire X4600 M2  
Hot swappable  
120/240 Volt – 50/60 Hz Autodetect  
83% efficiency for the 850 Watt PSU  
90% efficiency fro the 950 Watt PSU  
N+N redundancy  
Two cooling fans  
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Chapter 6  
ILOM: Integrated Lights Out Management  
Integrated Lights Out Management (ILOM) is the Service Processor used in Sun Fire X4600 servers. ILOM  
enables multiple in-band and out-of-band management solutions. In-band management through the host  
operating system, or platform, is enabled by IPMI and SNMP OS-resident agents. Out-of-band management is  
enabled through the serial port or dedicated Ethernet. There is a command line interface (CLI) provided when  
out-of-band serial port conenctivity is used. The dedicated Ethernet connectivity to out-of-band management  
features include:  
Web interface  
CLI via SSH  
IPMI 2.0  
SNMP v1, v2c, and v3  
ILOM Architecture  
The Sun Fire X4600 server leverages the same ILOM design and part used in the Sun Fire X4100 and X4200.  
ILOM is a Sun-designed Field Replaceable Unit (FRU) daughtercard. The ILOM daughtercard has the following  
features:  
Motorola MPC8248 PowerPC processor  
32-bit 266 MHz  
16 KB 4-way associative data cache  
16 KB 4-way associative instruction cache  
64-bit data bus  
66 MHz PCI bridge  
64 MB PC-133 MHz SDRAM  
16-bit 32 MB Flash ROM  
DVI output  
USB connections to NVIDIA nForce Professional 2200  
LPC (Low Pin Count) connection to NVIDIA nForce Professional 2200  
10/100 MB Integrated LAN  
Three serial ports (Debug, RS485, external)  
Half-size standard PCI form factor  
The ILOM daughtercard is a standalone system with no dependencies on the operating system and has  
availability to physical interfaces through the connections listed above. The actual connected devices, however,  
are located on the main system board. ILOM daughtercard connections include:  
DVI output port connected to the ATI Rage XL via FPGA to enable remote graphics redirection from  
ILOM with a maximum VGA resolution of 1024 x 768.  
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Three USB connections to the NVIDIA nForce Professional 2200 to provide remote keyboard, mouse,  
and storage functionality.  
LPC connection to the NVIDIA nForce Professional 2200 via FPGA.  
10/100 MB Ethernet connected to the onboard Broadcom BCM5221 10/100 Ethernet controller, which  
automatically detects straight or cross-over Ethernet cables.  
External serial port multiplexed with the main system serial port for access to the ILOM CLI and system  
console using serial port redirection (S-o-L Serial-over-LAN).  
Figure 6-1: ILOM Daughtercard  
ILOM Software  
ILOM is an IPMI 2.0-compliant Baseboard Management Controller (BMC) that implements Lights Out  
Management (LOM), including “Remote Keyboard, Video, Mouse, and Storage” (KVMS), a Web management  
interface, a command line interface (CLI), and SNMP. ILOM software includes the following:  
Embedded, hardened Linux OS  
IPMI 2.0 BMC  
Platform Control agents diagnostics software  
RKVMS  
The ILOM and BIOS firmware are easily upgraded using a single 11 MB file to upgrade both. The firmware  
upgrade can be performed either by command line interface or Web interface.  
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In-Band Server Management Interfaces  
Server management through the platform operating system in a Sun Fire X4600 server is possible using either  
IPMI with a Keyboard Controller Style (KCS) inteface and an IPMI kernel driver or by using SNMP OS-resident  
agents. IPMI 2.0 and SNMP v1, v2c, and v3 are the supported standards to perform autonomous platform  
management functions.  
Baseboard Management Controller (BMC)  
ILOM and its controlling firmware are together referred to as the Base Management Controller (BMC), which is  
the core of the IPMI structure. Tightly integrating an IPMI BMC and management software with platform  
firmware facilitates a total management solution.  
Out-of-Band Server Management Interfaces  
Server management through the ILOM service processor in a Sun Fire X4600 server is possible through serial  
port access or a dedicated Ethernet connection. Serial port connectivity to ILOM provides direct console access  
to the command line interface (CLI) and to the system console stream via serial port redirection, i.e., serial-  
over-LAN. The dedicated Ethernet interface offers ILOM connectivity by Web interface, CLI via SSH, IPMI 2.0,  
and SNMP v1, v2c, and v3.  
Command Line Interface (CLI)  
The ILOM command line interface is accessible either by a serial port connection or a dedicated Ethernet  
connection via Secure Shell (SSH) on a Sun Fire X4600 server. The CLI is designed to follow the Distributed  
Management Task Force Systems Management Architecture for Server Hardware (DMTF SMASH) Command  
Line Protocol (CLP).  
The DMTF SMASH CLP is based on these concepts:  
Object namespace—There is a large namespace of objects to describe the targets for each command.  
Examples of objects are CLI users, SNMP traps, and alert rules.  
Command verbs—There are a small number of command verbs that operate on the objects in a  
namespace. Command verbs are simple and include create, delete, set, show, start, and stop.  
Object properties—An object may have one or more properties (parameters). For example, a user ID object  
has a password and roles properties.  
Options—A command may have options that modify or clarify its operation. The DMTF CLP lists several  
options that must be supported by all commands.The syntax of an ILOM command is  
<verb> <options> <target> <properties>  
Not all commands require options, a target, or properties to be specified.  
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The core of the model for the DMTF SMASH CLP is a hierarchical objects namespace in which an object in the  
namespace is a target to a command. There are two namespaces that an SP can reference: its own  
namespace, whose root is /SP, and the overall system namespace, whose root is /SYS. The purpose of the  
/SP namespace is to represent configuration and state for the SP. The primary purpose of the /SYS  
namespace is to allow access to sensors and other information about system hardware by the SP.  
Web Interface  
The Sun Fire X4600 ILOM Web interface supports both secure (https) and non-secure (http) access. Secure  
access will be enabled by default. The Web interface provides the same functionality as the CLI and is divided  
into five main sections:  
System Information  
System Monitoring  
Configuration  
Remote Controller  
Maintenance  
Remote Keyboard, Video, Mouse, and Storage (RKVMS)  
Remote Keyboard, Video, Mouse, and Storage (RKVMS) features are accessible through the ILOM Web  
interface.  
TM  
Remote video display is accomplished through the ILOM Remote Console, which is a Java Web Start  
application. ILOM Remote Console is downloaded from ILOM to the management console machine and  
executed locally. It does not run on the server and therefore does not put overhead on the host. ILOM Remote  
Console is used to redirect the BIOS and setup screens as well as all other platform video output. It provides a  
true remote video console to the management console by handling the input and output to and from virtual  
devices and the Sun Fire server. The ILOM Remote Console supports 8- and 16-bit video display up to 1024 x  
768 and requires the installation of Java Runtime Environment 5.0 on the management console.  
The three USB ports connected between the ILOM service processor and the NVIDIA nForce Professional  
2200 enable the remote keyboard, mouse, and storage components of the RKVMS functionality. The remote  
devices are presented to the Sun Fire server by ILOM Remote Console and ILOM as virtualized local devices.  
ILOM Remote Console captures keyboard and mouse input on the management console and directs it to ILOM.  
ILOM then transmits these keyboard and mouse inputs over the USB ports to the NVIDIA nForce Professional  
2200 and to the Sun Fire server. The Sun Fire server interprets these inputs as originating from local USB  
devices.  
ILOM Remote Console is also capable of presenting remote bootable storage to ILOM and the Sun Fire server.  
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The remote storage can be either physical storage devices or bootable media image files on the hard drive. The  
following types of remote storage are supported by the ILOM Remote Console:  
CD/DVD-ROM  
Floppy  
CD/DVD-ROM image (.iso files)  
Floppy image (.img files)  
When the Sun Fire X4600 server attempts to access a Virtual Floppy or Virtual CD-ROM as set up in the BIOS,  
ILOM redirects this access request to the ILOM Remote Console. The ILOM Remote Console then accesses  
the virtual disk content from the management console's physical CD/DVD-ROM drive, physical floppy drive, or  
a disk image on the hard drive. ILOM virtualizes this remote storage to the Sun Fire server using the USB ports  
connected to the NVIDIA nForce Professional 2200. The virtualized storage is recognized by the Sun Fire  
server as local USB connected storage and enables remote operating system boot up and installation.  
Figure 6-2: Illustration of RKVMS Functionality  
Lights Out Management (LOM)  
Lights Out Management is performed on the Sun Fire X4600 server through IPMItool, a command-line utility for  
controlling IPMI-enabled devices.  
Intelligent Platform Management Interface (IPMI)  
Platform management refers to the autonomous monitoring, logging, recovery, and inventory control features  
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implemented in hardware and firmware. The key differentiator of Intelligent Platform Management is that these  
functions are independent of the main CPU, BIOS, and OS. There are two major components of platform  
management: the Service Processor (or BMC) and System Management Software (SMS). Intelligent Platform  
Management capabilities are a key component in providing enterprise-class management for high-availability  
systems. Platform status information can be obtained and recovery actions initiated under situations where  
system management software and normal in-band management mechanisms are unavailable.  
The Service Processor is the brain behind platform management. Its primary purpose is to provide autonomous  
sensor monitoring and event logging features. Typical sensor-related events are out-of-range temperature or  
voltage and fan failure. When an event occurs, it is noted in the system event log and made available to SMS.  
The Service Processor is powered by the power supply stand-by voltage and will function even when the server  
is powered down or the operating system has crashed. This allows platform status to be obtained and recovery  
initiated under situations in which in-band delivery mechanisms are unavailable. In modern systems, the  
Intelligent Platform Management Interface provides a hardware-level interface specification for monitoring and  
control functions. It defines a standard, abstract, message-based interface between the BMC and SMS and a  
common set of commands for operations such as accessing sensor values, setting thresholds, logging events,  
and controlling a watchdog timer. IPMI messages can be used to communicate with the BMC over serial and  
LAN interfaces, so software designed for in-band (local) management can be re-used for out-of-band (remote)  
management simply by changing the low-level communications layer.  
IPMItool  
IPMItool is a simple command-line interface to systems that support the IPMI v2.0 specification. IPMItool  
provides the ability to read the sensor data repository and print sensor values, display the contents of the  
system event log, print field-replaceable unit information, read and set LAN configuration parameters, and  
perform remote chassis power control. IPMItool was originally written to take advantage of IPMI-over-LAN  
interfaces but is also capable of using the system interface as provided by a Linux kernel device driver such as  
TM  
OpenIPMI or a Solaris driver called BMC, which is included in Solaris 10. IPMItool is available under a BSD-  
compatible license. System Management Software is generally complex and makes platform management only  
part of a much larger management picture. However, many system administrators and developers rely on  
command-line tools that can be scripted and systems that can be micro-managed. IPMItool takes a different  
approach to SMS and provides a completely command-line oriented tool. Therefore, it is not designed to  
replace the OpenIPMI library. Where possible, IPMItool supports printing comma-separated values for output to  
facilitate parsing by other scripts or programs. It is designed to run quick command-response functions that can  
be as simple as turning the system on or off or as complex as reading in the sensor data records and extracting  
and printing detailed sensor information for each record.  
SNMP  
SNMP management provides remote access by SNMP-compliant entities to monitor and control network  
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devices and manage configurations, statistics collection, performance, and security on a network. SNMP is a  
network management protocol used almost exclusively in TCP/IP networks. The Sun Fire X4600 servers  
provide SNMP MIBs to manage and monitor the servers using any SNMP-capable network management  
system, such as HP OpenView Network Node Manager (NNM), Tivoli, CA Unicenter, or IBM Director. The MIB  
data describes the information being managed, reflects current and recent server status, and provides server  
statistics.  
SNMP v1, v2c, and v3 are supported. v1 and v2c are disabled by default, leaving v3 enabled by default. SNMP  
sets can be enabled or disabled. SNMP sets are disabled by default. An IPMI-specific trap, called a Platform  
Event Trap, or PET, may also be generated.  
Sun N1 System Manager  
In today’s rapidly growing and constantly changing data centers, customers are deploying large number of  
systems to scale out their computing environments. As the number of systems in an organization grows, the  
complexities of managing a system infrastructure through its life-cycle become increasingly apparent. A server  
could be re-provisioned many times in its lifetime to support the changing business needs. For example, its role  
could change from an application host to a database server, or move from a staging site into a production  
environment. And once the systems are provisioned, IT operators must continuously monitor and manage them to  
ensure that they perform at desired levels.  
Managing each step of the infrastructure life-cycle is challenging for even the most sophisticated IT staff. N1  
System Manager is specifically designed to solve this problem with its comprehensive infrastructure life-cycle  
management capabilities. Customers can manage hundreds of Sun Fire x64 and SPARC servers in a  
heterogeneous environment from anywhere on the Web.  
N1 System Manager enables IT organization to speed up system deployment, improve efficiency, increase  
responsiveness, and lower operating costs. It simplifies the discovery, provisioning, monitoring, updating and  
management processes for the life-cycle of Sun systems.  
The key features of N1 System Manager include:  
Hybrid user Interface – a unique and innovative Web user interface with both GUI and CLI capabilities  
for performing management tasks.  
Bare Metal Discovery – discovers compute nodes based on their subnet or IP address with minimal  
manual intervention.  
Systems Grouping – groups systems together according to business requirements. Operators can  
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manage a group in the same manner as managing a single system.  
Software Provisioning – provisions Solaris, Linux, and Windows OS, as well as firmware and software  
updates, from a single Web console.  
Hardware and OS Monitoring – monitors hardware components and OS attributes to ensure the health  
of a system. Operators can customize the alarm thresholds for each component to meet business needs.  
Event Notification – notifies IT staff immediately upon detecting alarmed condition to take corrective  
actions.  
Lights-out Management – operators can remotely power systems on and off, execute commands, and  
access serial console to perform management tasks.  
IT Roles – assigns role to IT staff for granting responsibilities to manage systems.  
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Chapter 7  
Software Operating Environment  
The Sun Fire X4600 server supports multiple 32-bit and 64-bit operating systems, including Solaris, Linux, and  
Windows. The pre-installed Solaris 10 01/06 image also includes the patch 119851-13 to enable the use of the  
raidctl command for RAID configuration. VMware ESX Server compatibility and certification is planned for inclu-  
sion in the ESX Server 3.01 release in Q3CY06. Table 7-1 lists the different operating systems supported on the  
Sun Fire X4600 server.  
Table 7-1: Sun Fire X4600 Supported Operating Systems  
Operating System  
Sun Supported  
Solaris 10 01/06 on x64  
64-bit  
64-bit  
64-bit  
64-bit  
32-bit  
64-bit  
64-bit  
Yes  
Yes  
Yes  
Planned  
Yes  
Yes  
Red Hat Enterprise Linux 4.0 U3  
SuSE Linux Enterprise Server 9 SP3  
SuSE Linux Enterprise Server 10  
Microsoft Windows Server EE/SE 2003  
Microsoft Windows Server EE/SE 2003  
VMware ESX Server 3.0.1  
Yes, Nov 2006  
Table 7-1: Sun Fire X4600 M2 Supported Operating Systems  
Operating System  
Sun Supported  
Solaris 10 01/06 on x64 (U1)  
Solaris 10 06/06 on x64 (U2)  
Solaris 10 11/06 on x64 (U3)  
64-bit  
64-bit  
64-bit  
Yes  
Yes  
Yes  
Red Hat Enterprise Linux 3.0 U8  
Red Hat Enterprise Linux 4.0 U3  
Red Hat Enterprise Linux 4.0 U4  
Red Hat Enterprise Linux 5.0  
SuSE Linux Enterprise Server 9 SP3  
SuSE Linux Enterprise Server 10  
64-bit  
64-bit  
32/64-bit  
64-bit  
64-bit  
Yes (128GB limit, 8 cores)  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
64-bit  
Microsoft Windows Server EE/SE 2003, SP1, SP2 32-bit  
Microsoft Windows Server EE/SE 2003  
VMware ESX Server 3.0.1  
64-bit  
32/64-bit  
Solaris 10 on x64, Red Hat Enterprise Linux, and SuSE Linux Enterprise Server operating systems can be  
ordered from Sun. Sun provides support contracts for these operating systems running on the Sun Fire X4600  
as well as Microsoft Windows Server 2003 Enterprise/Advanced Server Editions 32/64-bit, SP1, and SP2.  
Solaris Operating System Features  
Solaris 10 delivers performance advantages for database, Web, and Java technology-based services, as well  
as massive scalability with price/performance advantages. The following are features of the Solaris 10 operat-  
ing system:  
• Real-time troubleshooting of system problems  
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• New tools for low-level system debugging  
• System hardware testing and analysis  
• Fine-grained project accounting  
• Enhanced patch analysis and delivery tools  
• Existing applications benefit from Solaris 10 enhancements without modification  
TM  
• Integrated Sun Java Enterprise System suite components and the Sun Java Desktop System  
• 187 of the most popular free and open source software packages, many of which are supported by Sun  
• Integrated developer tools such as GNU utilities and Perl and Python programming languages  
Note: All occurrences of Solaris 10 OS for the Sun Fire X4600 server refers specifically to Solaris 10 for x64 OS, which is  
the minimum required Solaris release for the Sun Fire X4600 server.  
Key Productivity Features  
The Solaris Operating System delivers several critical performance and reliability features, such as:  
• Enhanced ease of use and PC-interoperability features  
• Integrated, high-performance Java technology and tools  
• Robust software developer environment  
• Advanced, standards-based networking  
• Improved systems installation and management tools  
• Enterprise-class directory services  
• Enhanced desktop tools, I/O standards, and security  
Other key features include:  
• 100% binary compatibility  
• Reliability, availability, and serviceability  
• Java 2 SDK  
• IPv6/IPsec/Mobile IP  
• LDAP directory services  
• System management tools  
• Desktop management and productivity tools  
• Observability  
• Internationalization  
• Data management  
• Real-time application support  
• Enhanced security features  
Manageability Features  
The Solaris 10 Operating System dramatically improves the way system administrators and developers identify  
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the reasons for suboptimal system and application performance. Solaris Dynamic Tracing (DTrace) technology  
makes it possible to delve deeply into today’s complex systems to troubleshoot problems in real time and  
quickly eliminate bottlenecks. Additional Solaris 10 features provide enhanced system insight, enabling a sys-  
tem administrator to quickly identify and resolve hardware problems and streamline and automate patch man-  
agement. Solaris Containers can also consolidate multiple applications onto a single system to increase utiliza-  
tion rates and cut system and licensing costs.  
Existing applications that adhere to the Solaris x64 OS application binary interface (ABI) and that are compiled  
with the same APIs will run unmodified on x64 platforms. In addition, Sun provides an easy-to-use AppCert  
testing tool for developers to verify existing Solaris OS application binaries and report any potential incompati-  
bilities.  
Interoperability  
Understanding that businesses today rely on a mix of technologies from a variety of vendors, Solaris 10 pro-  
vides tools to enable seamless interoperability with hundreds of heterogeneous hardware and software plat-  
forms.  
Availability  
New Solaris 10 features, such as Predictive Self Healing, offer capabilities that automatically diagnose and  
recover from hardware and application faults, maximizing system uptime.  
Advanced Networking  
Support for IPv6 in the Solaris OS is integrated into NFS, RPC, NIS, NIS+, and DNS. IPsec enables secure vir-  
tual private networks and network access control. Mobile IP provides Internet disconnect/reconnect capabilities  
with no data loss.  
Bundled Software  
Software bundled with the Solaris OS includes Oracle 8i Enterprise Edition, lxrun for Linux application compati-  
bility (for the Solaris OS x64), Apache Web Server, Netscape Communicator, Sun Java System Directory  
Server, gzip, bash, and tcsh.  
The Solaris operating environment ships with a number of software components that increase overall availabil-  
ity, including Solaris Resource Manager software for fine-grained control of system resources, Solaris Band-  
width Manager software for enhanced network resource availability, and Sun Cluster 3.1 software for even  
greater application availability through a clustered file system, scalable data services, and built-in load balanc-  
ing.  
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Sun Studio (90-Day Trial Version)  
Sun Studio 10 software is Sun's latest and best developer tool suite for C, C++, and Fortran application devel-  
opment. It continues to provide corporate developers and ISVs with a comprehensive, integrated suite of tools  
for the development, debugging, tuning, and deployment of enterprise applications on Sun platforms. With this  
release, Sun Studio 10 software extends its world-class development environment to the AMD64 architecture  
and delivers reliable, scalable, and high-performance applications for the Solaris 10 Operating System.  
Additionally, Sun Studio 10 software provides a common debugger that can visually debug single and multi-  
threaded C, C++, and Fortran code. It can even handle intermixed Java and native code—an industry first! All  
TM  
of these powerful tools are presented within a NetBeans -based Integrated Development Environment.  
Sun Studio 10 software also provides an integrated development environment (IDE), performance analysis  
tools, and intuitive debugger for Linux operating systems. These components are compatible with GCC 3.2  
software. Note that Sun is not supplying or providing support for the gcc compiler.  
Customers using prior software versions, including Forte Developer 6 Update 2, Sun ONE Studio 7 Enterprise  
Edition, Sun Studio 8, and Sun Studio 9 releases, can easily upgrade to Sun Studio 10 software since it is fully  
compatible with these previous releases. The software is full of productivity enhancements, feature improve-  
ments, and expanded platform support to make Solaris and Linux application development more productive.  
Solaris Flash Software  
To improve utilization of the systems that make up today’s data centers, administrators are turning to tools such  
as Solaris Flash software. Solaris Flash software provides new provisioning functionality that allows  
administrators to capture a snapshot image of a complete system—including the Solaris OS, the applications  
stack, and the system configuration—in a new Flash Archive format. Using this system image, administrators  
can then rapidly replicate a reference system configuration onto many target systems. Solaris Flash images  
can be deployed via standard media or over the network via HTTP and NFS protocols. Solaris Flash software  
TM  
images can be installed using custom Solaris JumpStart software scripts, through the Solaris Web Start  
software graphical interface, or through interactive installation of the Solaris Operating System.  
Solaris LIVE! Upgrade Software  
TM  
Solaris LIVE! Upgrade software allows Solaris OS software to be installed on a separate partition from the  
currently running version of the operating environment. In particular, Solaris LIVE! Upgrade software enables  
systems to run uninterrupted while a system administrator installs a Solaris Flash archive or upgrades to a new  
version of the Solaris Operating System. As a result, downtime for upgrades is reduced to the time needed for  
a reboot. When installation is complete, a simple reboot enables the Solaris 10 OS to take control. Since  
Solaris LIVE! Upgrade software includes a version migration and fallback feature, organizations can also fall  
back to the previous release (again, through a simple reboot) without losing administration information.  
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Real-Time Video Creation and Broadcast Support  
A Java Media Framework (JMF) technology player provides access to the latest industry-standard audio and  
video files, including MPEG1/2, QuickTime, VIVO, AVI, AIFF, GSM, WAV, RMF, AU, and MIDI.  
Solaris 10 OS Bundled Desktop Environments  
The following desktop environments are included with the Solaris 10 Operating System.  
Common Desktop Environment (CDE) Enhancements  
The latest generation of the Common Desktop Environment (CDE) comes standard, providing workstation  
users with an easy-to-use, open, secure platform. Personal Digital Assistant (PDA) support synchronizes data  
from most Palm computing devices with the CDE calendar, mail, memo, and address book. CDE now features  
streaming video using MPEG1, MPEG2, QuickTime, and AVI formats, as well as MIDI audio using Java Media  
Framework technology.  
GNOME 2.0 Desktop Environment  
GNOME 2.0, the modern desktop for the Solaris 10 Operating System (OS), provides applications and tools  
that are designed to enhance business productivity in a networked world. GNOME 2.0 helps organizations  
achieve their business goals by offering a unified, modern, open, networked, and cost-effective desktop solu-  
tion. Key features of GNOME 2.0  
include:  
• Personalization capabilities that allow users to change settings to suit their preferences  
• Built-in applications and assistive technology solutions for users with disabilities  
• Removal of the complexity of supporting disparate desktop user environments and the provision of a richer  
common unified desktop  
• Open file standards that provide transparent file and data interchange  
• Built-in accessibility support that enables all users to interact with the GNOME 2.0 desktop environment running  
on any UNIX platform  
• Flexibility and choice to run GNOME, CDE/Motif, and Java technology-based applications unmodified,  
preserving existing software investments  
• Support for key open standards to facilitate interoperability, compatibility, and collaboration in today’s highly-  
networked, heterogeneous world, including support for XML, DOM, HTTP, HTML, CORBA, MIME, Unicode,  
MPEG, JPEG, AVI, MIDI, XDnD (drag & drop), X11, NFS, and TCP/IP  
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GNOME 2.0 for the Solaris OS is open source, free software with no upgrade or licensing fees. More  
information about GNOME 2.0 is available at http://www.sun.com/gnome.  
Solaris OS Licensing and Usage  
Under the Free SolarisBinary License Program, Sun is making the binary (runtime) version of its Solaris 10  
OS available to anyone who accepts the terms of the Solaris OS Binary Code License (BCL) and the Free  
Solaris Binary License Program. There are no fees for the right to use the software on computers with a  
capacity of eight or fewer processors. There is a small charge for the media kit. Refer to  
http://www.sun.com/software/solaris for current licensing details.  
Features of the Solaris OS license include the following:  
• No distinction between desktop and server licenses  
• Free binary (runtime) license for all systems with eight or fewer CPUs for users who accept the terms of the  
Solaris 10 OS Binary Code License and the Free Solaris Binary License Program  
• Availability for purchase via the Solaris 10 Media Kit at http://www.sun.com/solaris/binaries  
• Single Solaris Media Kit for installing multiple systems  
• Solaris Media Kit containing additional bundled software  
• Solaris Supplemental CD of bundled user and system management tools  
• Oracle 8i Enterprise Edition (with development license)  
TM  
• StarOffice 8.0 productivity suite  
• Solaris Software Companion CD of popular freeware  
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Chapter 8  
Additional Software Included  
Sun Installation Assistant  
The Sun Installation Assistant software on CD-ROM is included in the ship-kit with every Sun Fire X4600  
server. Sun Installation Assistant is a Linux installation utility that reduces the complexity of installing supported  
Linux distributions on new hardware. A newly released platform seldom has a certified set of drivers already in  
a current Linux distribution. Typically, an administrator will be required to generate driver disks for each of the  
supported Linux distributions that he or she plans to install. Additionally, Linux distributions do not contain  
support for non-platform drivers such as the Service Processor.  
A complete Linux installation on a Sun Fire X4600 server can be easily performed using the Sun Installation  
Assistant CD-ROM. Insatallation can be done either locally or remotely using the remote KVMS features  
provided by ILOM and the ILOM Remote Console.  
Once the system has been booted from the media or image, a boot kernel is loaded and probes the platform  
configuration. Upon recognition that the server is a supported platform, a list of the currently supported Linux  
distributions is displayed and the user is prompted to insert Disk 1 of the supported Linux distribution of his or  
her choice. Disk 1 can be either a physical CD-ROM disk or an ILOM Remote Console redirected iso disk  
image. The Linux distribution installation continues as usual until completion. Following installation completion,  
the certified platform and device drivers are installed and the installation is completed without necessitating  
cumbersome driver installation procedures. The Sun Installation Assistant manages the software installation of:  
Supported Linux operating systems  
Platform-specific software  
Diagnostic and fault management software  
Add-on components such as the JES middleware stack  
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Appendix A  
Connector Pinouts  
USB  
Table A-1: USB Pinouts  
Pin # Pin Name  
Description  
+5V supply  
1
2
3
4
+5V  
Data- Negative side of differential pair for data  
Data+  
Gnd  
Positive side of differential pair for data  
Ground  
Figure A-1: USB Pinouts  
Serial  
Table A-2: Serial Pinouts  
Pin # Pin Name  
Description  
1
2
3
4
5
6
7
8
CTS  
DCD  
TXD  
GND  
GND  
RXD  
DTR  
RTS  
Clear to Send  
Data Carrier Detect  
Transmit Data  
Ground  
Ground  
Receive Data  
Data Terminal Ready  
Ready to Send  
Figure A-2: Serial Pinouts  
10/100 BaseT  
Table A-3: 10/100 BaseT Pinouts  
Pin # Pin Name  
Description  
1
2
3
4
TX+  
TX-  
RX+  
NC  
Positive Side of Transmit Data  
Negative Side of Transmit Data  
Positive Side of Receive Data  
No Connect  
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5
6
7
8
NC  
RX-  
NC  
NC  
No Connect  
Negative Side of Receive Data  
No Connect  
No Connect  
Figure A-3: 10/100 BaseT Pinouts  
Serial Attached SCSI (SAS)  
Table A-4: Serial Attached SCSI (SAS) Pinouts  
Pin # Pin Name  
Signal Segment  
Description  
S1  
S2  
S3  
S4  
S5  
S6  
S7  
GND 2nd mate  
TX+  
TX-  
GND  
RX-  
RX+  
GND  
Transmit from PHY to hard drive  
Transmit from PHY to hard drive  
2nd mate  
Receive from hard drive to PHY  
Receive from hard drive to PHY  
2nd mate  
Backside Signal  
S8  
GND 2nd mate  
S9  
S10  
S11  
S12  
S13  
S14  
GND  
2nd mate  
2nd mate  
GND  
Power Segment  
P1  
P2  
P3  
P4  
P5  
P6  
P7  
P8  
P9  
P10  
3.3V  
3.3V  
3.3V  
GND  
GND  
GND  
5.0V  
5.0V  
5.0V  
GND  
Not supported  
Not supported  
Not supported  
1st mate  
2nd mate  
2nd mate  
Pre-charge, 2nd mate  
2nd mate  
Should be grounded  
1st mate  
P11 Reserved  
P12  
P13  
P14  
P15  
GND  
12.0V  
12.0V  
12.0V  
Pre-charge, 2nd mate  
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Figure A-4: Serial Attached SCSI (SAS) Pinouts  
10/100/1000 BaseT  
Table A-5: 10/100/1000 BaseT Pinouts  
Pin # Pin Name  
Description  
1
2
3
4
5
6
7
8
TPO+  
TPO-  
TP1+  
TP2+  
TP2-  
TP1-  
TP3+  
TP3-  
Positive Side of Data Pair 0  
Negative Side of Data Pair 0  
Positive Side of Data Pair 1  
Positive Side of Data Pair 2  
Negative Side of Data Pair 2  
Negative Side of Data Pair 1  
Positive Side of Data Pair 3  
Negative Side of Data Pair 3  
Figure A-5: 10/100/1000 BaseT Pinouts  
VGA  
Table A-6: VGA Pinouts  
Pin # Pin Name  
Description  
Red Video  
Green Video  
Blue Video  
ID2 (Ground)  
1
2
3
4
5
6
7
8
RED  
GRN  
BLU  
ID2  
GND  
R_GND  
G_GND  
B-GND  
Ground  
Red Video Return (Ground)  
Green Video Return (Ground)  
Blue Video Return (Ground)  
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9
KEY  
S_GND  
IDO  
No Pin  
Syn Return (Ground)  
IDO (Ground)  
IDI (No Connect)  
Horizontal Sync  
Vertical Sync  
10  
11  
12  
13  
14  
15  
IDI  
HSYNC  
VSYNC  
ID3/SCL  
No Connect  
Figure A-6: VGA Pinouts  
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Appendix B  
Sun Fire X4600/X4600 M2 Rack Mounting Specifications  
Sun Fire X4600/X4600 M2 server should fit in nearly all 3rd-party racks that meet these criteria:  
Rack has a horizontal opening with unit vertical pitch conforming to ANSI/EIA 310-D-1992 and/or IEC 60927  
Four-post structure (i.e., mounting at both front and rear)  
Distance between front and rear mounting planes is between 610 mm and 915 mm (24 to 36 inches)  
Clearance depth (to front cabinet door) in front of front rack mounting plane is at least 25.4 mm (1 inch)  
Clearance depth (to rear cabinet door) behind front rack mounting plane is at least equal to the cable  
management arm  
Clearance width (between structural supports, cable troughs, etc.) between front and rear mounting planes  
is at least 456 mm (18 inches)  
To permit installation in racks meeting the above criteria, there is only one rack slide and cable management  
arm set for the Sun Fire X4600 server. There is no provision in the slide brackets for mounting to non-standard  
side planes within rack cabinets—all mounting is to front and rear planes only.  
For reference, most generic 19-inch format racks of 900 mm or greater overall depth can accommodate the  
Sun Fire X4600 server; the system will fit in some shallower racks and many at 800 mm without the cable man-  
agement arm.  
Note: Two-post, center-mount racks are not supported.  
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Appendix C  
Sun Fire X4600/X4600 M2 Server Dimensions  
The Sun Fire X4600/X4600 M2 server has the following size and weight dimensions.  
Table B-1: Sun Fire X4600/X4600 M2 Server Dimensions  
Sun Fire X4600 and X4600 M2  
Weight  
106 lbs. / 48 Kg maximum with rack kit and cable mgmt arm  
88 lbs. / 40 Kg maximum standalone server  
6.9 in. / 176 mm 4RU  
17.5 in. / 445 mm  
24.75 in. / 629 mm chassis with bezel  
25.25 in. / 642 mm chassis, bezel, and rear PSU latches  
Height  
Width  
Depth  
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Appendix D  
Environmental and Regulatory Compliance  
The Sun Fire X4600 server meets or exceeds the following environmental and regulatory specifications.  
Table C-1: Sun Fire X4600 Server Environmental Specifications  
Type  
Specification  
10º C to 32º C (41º F to 90º F), 20% to 90% relative humidity, non-condensing, 27º C max  
wet bulb  
Operating temperature  
(single,non-rack system)  
Non-operating temperature  
(single, non-rack system)  
Operating altitude  
(single, non-rack system)  
Non-operating altitude  
(single, non-rack system)  
Acoustic noise  
-40º C to 65º C (-40º F to 149º F), up to 93% relative humidity, non-condensing  
38º C max wet bulb  
35º C up to 900 meters and a derating of 1º C for every 300 m in altitude,  
up to 3048 m maximum  
Up to 12000 meters  
Less than 67 dB sound power in ambient temperature of up to 24º C  
75 dB sound power in ambient temperature above 25º C  
(single, non-rack system)  
Table C-2: Sun Fire X4600 Server Regulatory Specifications  
Type  
Specification  
Safety  
IEC60950, UL/CSA60950-01, EN60950, CB Scheme with all country differences  
FCC Class A, Part 15 47 CFR, EN55022, CISPR 22, EN 300- 386:v1.3.2, ICES-003  
EN55024  
RFI/EMI  
Immunity  
Related Certifications: Safety  
Related Certifications: EMC  
cULus Mark, TUV GS Mark, CE Mark, CCC, BSMI, GOST R, S-Mark  
CE Mark (93/68/EEC) Emissions and Immunity, Class A Emissions Levels: FCC, VCCI,  
BSMI,C-Tick, MIC, GOST  
Other  
Labeled per WEEE (Waste Electrical and Electronic Equipment) Directive  
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Sun Microsystems, Inc. 4150 Network Circle, Santa Clara, CA 95054 USA Phone 1-650-960-1300 or 1-800-555-  
9SUN Web sun.com  
Sun Worldwide Sales Offices: Argentina +5411-4317-5600, Australia +61-2-9844-5000, Austria +43-1-60563-0, Belgium +32-2-704-8000, Brazil +55-11-5187-2100, Canada +905-477-6745,  
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258-6100 The Netherlands +00-31-33-45-15-000, New Zealand-Auckland +64-9-976-6800; Wellington +64-4-462-0780, Norway +47 23 36 96 00, People's Republic of China-Beijing +86-10-  
6803-5588; Chengdu +86-28-619-9333 Guangzhou +86-20-8755-5900; Shanghai +86-21-6466-1228; Hong Kong +852-2202-6688, Poland +48-22-8747800, Portugal +351-21-4134000,  
Russia +7-502-935-8411, Saudi Arabia +9661 273 4567, Singapore +65-6438-1888 Slovak Republic +421-2-4342-94-85, South Africa +27 11 256-6300, Spain +34-91-596-9900, Sweden  
+46-8-631-10-00, Switzerland-German 41-1-908-90-00; French 41-22-999-0444, Taiwan +886-2-8732-9933, Thailand +662-344-6888 Turkey +90-212-335-22-00, United Arab Emirates  
+9714-3366333, United Kingdom +44-1-276-20444, United States +1-800-555-9SUN or +1-650-960-1300, Venezuela +58-2-905-3800, or online at sun.com/store  
SUN™ THE NETWORK IS THE COMPUTER © 2006 Sun Microsystems, Inc. All rights reserved. Sun, Sun Microsystems, the Sun logo, Sun Enterprise, Sun Fire, Java, and The Network  
Is The Computer are trademarks, registered trademarks or service marks of Sun Microsystems, Inc. in the United States and other countries. Products bearing SPARC trademarks are  
based upon an architecture developed by Sun Microsystems, Inc. UNIX is a registered trademark in the United States and other countries, exclusively licensed through X/Open Company,  
Ltd. Other brand and product names are trademarks of their respective companies. Information subject to change without notice.  
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