SPS assembly, placing into service position 3-9 SPS assembly, removing 4-2

SPS assembly, replacing 4-2

SPS assembly, replacing from service position 3-9

SPS fan control cable, removing

4-3

 

SPS fan control cable, replacing

4-4

 

SPS fans, removing

4-3

 

 

 

 

SPS fans, replacing

4-3

 

 

 

 

SPS front chassis cable 1-8

 

 

SPS partitioning 3-8

 

 

 

 

 

SPS power card, removing

 

4-6

 

 

SPS power card, replacing

 

4-7

 

 

SPS resources, removing

3-7

 

 

SPS resources, restoring

3-7

 

 

SPS supervisor card, removing

4-4

 

SPS supervisor card, replacing

4-5

 

SPS supervisor power cable, removing

4-5

SPS supervisor power cable, replacing

4-6

SPS Switch data cables 2-13

 

 

SPS switch inner chassis cable

1-8

 

SPS-8 Switch data cables

2-13

 

 

SPS, SPS-8 (feature)

5-2, 5-4, 5-6

 

SPS, SPS-8 switch (feature

5-4

 

 

SPS, SPS-8 switch (feature)

5-2, 5-6

 

SRN (Service Request Number) table for SP Switch adapters 1-24

static-sensitive devices 4-1supervisor verification

frame 3-5 node 3-4 switch 3-5

switch adapters (SP Switch), Service Request Number (SRN) table 1-24

switch assembly from active configuration, removing 3-7

switch assembly to active configuration, restoring 3-8 switch assembly, removing 4-2

switch assembly, replacing 4-2 switch cables (feature) 5-8

switch clock source, determining the correct 3-6

switch clock source, selecting the

3-6

switch clocks, selecting appropriate

3-6

Switch data cables, SPS 2-13

 

 

Switch data cables, SPS-8

2-13

 

 

switch fans, removing

4-3

 

 

 

switch fans, replacing

4-3

 

 

 

switch front chassis cable, removing

4-3

switch front chassis cable, replacing

4-4

switch function MAP

 

 

 

 

flowcharted

1-17

 

 

 

 

switch inner chassis cable, removing

4-5

switch inner chassis cable, replacing

4-6

switch inner chassis cable, SPS

1-8

 

switch partitioning 3-8

 

 

 

 

switch power card, removing

4-6

 

 

switch power card, replacing

4-7

 

 

switch power MAP

 

 

 

 

flowcharted

1-13

 

 

 

 

switch resources, removing

3-7

 

 

switch resources, restoring

3-7

 

 

switch supervisor card, removing

4-4

switch supervisor card, replacing 4-5 switch supervisor self-test3-4 switch supervisor verification 3-5

T

tools overview, service 3-1 trademarks A-1

U

unfencing nodes 3-8

updates on SP nodes, installing firmware 3-10

V

verification

frame supervisor 3-5 node supervisor 3-4 switch supervisor 3-5 using Perspectives 3-4

verification and isolation procedures switch supervisor self-test3-4

W

who should use book xv wrap plugs 1-4

Index X-3

Page 109
Image 109
IBM RS/6000 SP manual Switch inner chassis cable, SPS Switch partitioning

RS/6000 SP specifications

The IBM RS/6000 SP (Scalable Power) is a high-performance computing system that was developed in the early 1990s and has since become a significant player in the realm of supercomputing and enterprise solutions. Designed primarily for scientific, engineering, and complex data analysis tasks, the RS/6000 SP provides powerful processing capabilities, enhanced scalability, and features to support demanding applications.

One of the key characteristics of the RS/6000 SP is its modular architecture, which allows for the addition of multiple nodes. Each node is based on IBM's Power architecture, leveraging the RISC (Reduced Instruction Set Computing) design to achieve high throughput and efficiency. The system can support configurations ranging from a few nodes to hundreds, enabling organizations to scale their computational power as needed based on workload requirements.

The RS/6000 SP employs advanced interconnect technologies, most notably the SP Switch, which ensures high-speed communication between nodes. This interconnect allows for seamless data transfer, ensuring that the system can handle large datasets and complex computations without bottlenecks. The SP's ability to deliver concurrent processing capabilities makes it ideal for parallel computing tasks, including simulations, modeling, and large-scale computations.

In terms of software, the RS/6000 SP was equipped with AIX, IBM's version of the UNIX operating system, which provides a stable and secure environment for enterprise applications. Furthermore, the system supports a vast array of programming languages and tools, including Fortran, C, and C++, along with libraries and frameworks designed for high-performance computing. This compatibility allows developers to optimize their applications to fully utilize the underlying hardware.

Another notable feature of the RS/6000 SP is its extensive support for various workloads, including database management, multi-user applications, and graphical processing. The system was equipped with high-performance graphics capabilities, making it suitable for tasks that require intensive visualization, such as computer-aided design (CAD) and scientific visualization.

Overall, the IBM RS/6000 SP has solidified its role in the high-performance computing landscape, combining advanced technologies, robust scalability, and flexibility to meet the unique demands of research and enterprise environments. Its legacy continues to influence modern computing architectures, embodying IBM’s commitment to innovation and performance in the pursuit of complex problem-solving capabilities.