6-3

Removing and Replacing the Top Cover

182

6-4

Removing and Replacing the Memory Carrier Assembly Cover

183

6-5

Removing and Replacing a Hot-Swappable Chassis Fan Unit

185

6-6

Removing and Replacing a Hot-Swappable Power Supply

187

6-7

Removing and Replacing a Hot-Pluggable Disk Drive

189

6-8

Disk Drive Slot IDs

190

6-9

PCI/PCI-X/PCIe Card Divider Removal and Replacement

192

6-10

PCI/PCI-X/PCIe Slot Identification and Card Divider Locations

193

6-11

DVD Drive Removal and Replacement

203

6-12

Removing and Replacing the Memory Carrier Assembly

205

6-13

Memory Carrier Assembly

207

6-14

Memory Carrier Assembly with Side Cover Removed

208

6-15

8-DIMM Memory Carrier Board Slot IDs

210

6-16

24-DIMM Memory Carrier Board Slot IDs

211

6-17

Inserting DIMM into Memory Board Connector

214

6-18

Removing and Replacing the Front Bezel

216

6-19

Removing the Processor Board Assembly

218

6-20

Processor Board Assembly

220

6-21

Processor Power Cable

221

6-22

Processor Alignment Posts and Lock/Unlock Mechanism

222

6-23

Processor Alignment Holes and Lock/Unlock Mechanism

223

6-24

I/O Board Assembly

227

6-25

I/O Board Assembly Removal and Replacement

228

6-26

Battery Location on I/O Board

231

6-27

Removing and Replacing the I/O VRM

233

6-28

TPM Location on I/O Board

235

6-29

Battery Location on the Core I/O Board

239

6-30

Display Board Location

244

6-31

Display Board

245

6-32

Display Board Removal and Replacement

245

6-33

Air Baffle Removal and Replacement

248

6-34

SAS Backplane Board Removal and Replacement

249

6-35

Interconnect Board Air Baffle

251

6-36

Interconnect Board Removal and Replacement

252

6-37

Midplane Board

255

B-1

OS Reinstallation Flowchart

262

C-1

Accessed Screens in the DRVCFG Utility

286

C-2

Adapter Properties Screen

287

C-3

Select New Array Type Screen

289

C-4

SAS Topology Screen - Expander Closed

293

C-5

SAS Topology Screen - Expander Open

294

C-6

Advanced Adaptor Properties Screen

296

C-7

EBSU Welcome Screen

310

C-8

EBSU Main Menu

311

C-9

EBSU Maintain Firmware Screen

311

C-10

EBSU Maintain Firmware Update Screen

312

C-11

ORCA Main Menu

314

D-1

EFI Boot Sequence

317

16 List of Figures

Page 16
Image 16
HP INTEGRITY RX3600 manual Processor Board Assembly, Processor Power Cable, Display Board Location, Midplane Board

INTEGRITY RX3600 specifications

The HP Integrity RX3600 is a high-performance server designed to address the demanding needs of enterprises that require robust computing capabilities, reliability, and scalability. Part of the HP Integrity server family, the RX3600 is built on the Itanium architecture, which is known for its exceptional processing power and advanced features that support mission-critical applications.

One of the main features of the RX3600 is its capability to handle multiple workloads with ease. The server supports up to 64 GB of RAM, allowing for efficient multitasking and enhanced performance in data-intensive environments. Its modular design also enables organizations to scale up their systems by adding additional memory or processors as needed, making it a flexible choice for growing businesses.

The RX3600 is equipped with HP's Integrity Virtual Machines (VMs), which provide virtualization capabilities that allow businesses to run multiple operating systems and applications on a single physical server. This not only maximizes resource utilization but also simplifies management by reducing the number of physical servers required in the data center.

Another significant characteristic of the RX3600 is its advanced reliability features. The server is designed with fault-tolerant components, including redundant power supplies and cooling systems. This ensures that the server remains operational even in the event of hardware failures. Additionally, HP's Error Correction Code (ECC) memory helps detect and correct data corruption, further enhancing the system's reliability.

For security, the HP Integrity RX3600 includes built-in features such as Secure Boot, which ensures that the server boots using only trusted firmware and software. This protects against unauthorized changes and vulnerabilities that could compromise data integrity.

In terms of connectivity, the RX3600 offers multiple I/O options, including advanced networking capabilities that support high-speed data transfer and improved bandwidth. This is critical for organizations that rely on data-intensive applications and need to maintain seamless connectivity.

Furthermore, the server supports a range of operating systems, including HP-UX and Linux, making it adaptable to various enterprise environments. Its robust performance, reliability, and scalability make the HP Integrity RX3600 an ideal choice for businesses looking to optimize their IT infrastructure and support their critical workloads with confidence.