I always wanted to know more ... read
2 7 Y E A R S O F I B M R I S C
|IBM ACS||the 801||PowerPC
|RT PC||RS64||RS64 II||RS64
1965 IBM ACS
In the 1960's IBM was behind in the scientific area and wanted to design an advanced machine better than the CDC 6800, later called the CDC 7600.
The idea for the ACS (IBM Advanced Computing Systems) design started in 1965 with John Cocke's vision of a scientific supercomputer. This was several years earlier than the RISC work at Berkeley and Stanford Universities. The ACS project (which evolved from "Project Y", that started late 1963) was cancelled in 1968.
Many of the innovative CPU organization techniques pioneered in ACS were used in the IBM RS/6000.
After ACS, John Cocke carried this understanding of compilers and instruction sets with him to the IBM 801 project. John also greatly influenced the IBM Cheetah and America projects, which were the predecessors to the RS/6000.
A Secret 1960's Supercomputer Project
IBM’s ACS-1 Machine
Technical Description of IBM ACS Project
1974 the 801
IBM Reduced Instruction Set Computer (RISC) technology originated in 1974 in a project at the Thomas J. Watson Research Center to design a large telephone-switching network. The computer needed was named the 801 (after Building 801, where the research was taking place). The goal of the 801 was to execute one instruction per cycle. The experimental 801 was never build, but the design, mostly developed by IBM researcher John Cocke, seemed to be an good basis for a general-purpose, high-performance miniprocessor.
The evolution of RISC technology at IBM (PDF)
Based on the experimental design of the 801 and ACS ideas the development laboratory in Austin completed a first prototype, where it evolved into the superscalar (Instructions are handled paralel) RISC System/6000 (RS/6000) processor that was introduced into the market in 1990. Development work had been done under code name "America" for the RISC chip research, and "RIOS" for systems using the America technology.
1986 RT PC
The IBM RT PC is IBM's first RISC based UNIX (Advanced Interactive Executive [AIX]) computer with 32 bits ROMP processor (without floating point capability ...) that was first announced by IBM in January 1986. The IBM RT has had a varied life from its initial announcement. The RT was considered as "not enough power, too high a price, and too late" and thought to be part of IBM's Personal Computer line ... (hence RT PC, later renamed to RT).
6150 RT PC Models 020, 025, and A25 IBM 6151 RT PC model 010
FAQ for AIX V2.2.1 on IBM RT systems 1 2 3 4
1986 Advanced Interactive Executive
AIX for the RT PC is announced. The RT used the Virtual Resource Manager (VRM) that provided a virtual machine environment for the kernel, allowing more than one operating system to execute. AIX was based on INTERACTIVE Systems Corporation's IN/ix (the first commercial Unix).
IBM RT Personal Computer System Overview
The IBM RT PC Advanced Interactive Executive (AIX) Operating System
RT PC AIX and Virtual Resource Manager
RT PC AIX Version 2.1
1987 AIX (PS/2)
IBM will provide the PS/2 AIX Operating System as a subset of the multiuser, multitasking, virtual memory AIX operating system currently available on the IBM RT PC.
PS/2 AIX Statement of Direction
Availability of PS/2 AIX delayed ...
Februari 1990 IBM announces its new RISC-based computer line, the RISC System/6000 (later named RS/6000, nowadays eServer pSeries), running AIX Version 3. The architecture of the systems is given the name POWER (now commonly referred to as POWER1), standing for Performance Optimization With Enhanced RISC. They where based on a multiple chip implementation of the 32-bit POWER architecture. The models introduced included an 8 KB instruction cache (I-cache) and either a 32 KB or 64 KB data cache (D-cache). They had a single floating-point unit capable of issuing one compound floating-point multiply-add (FMA) operation each cycle, with a latency of only two cycles and optimized 3-D graphics capabilities.
The model 7013-540 (30 MHz) processed 30 million instructions per second. Its electronic logic circuitry had up to 800,000 transistors per silicon chip. The maximum memory size was 256 Mbytes and its internal disk storage capacity was 2.5 GBytes.
RISC System/6000 POWERstation/POWERserver 320
RISC System/6000 POWERstations/POWERservers 520 AND 530
RISC System/6000 POWERserver 540
RISC System/6000 POWERstation 730
RISC System/6000 POWERserver 930
AIX Version 3
AIX Version 3 is announced.
AIX Version 3 (Februari, 1990)
Overview: IBM RISC System/6000 and related announcements
With the alliance of Apple and Motorola, IBM started a plan for the future that would span a range from the small, battery-operated computer to very large supercomputers and mainframes, resulting in the PowerPC family of microprocessors, a single-chip implementation for RISC-based hardware and software.
Understanding IBM pSeries Performance and Sizing
January of 1992, the model 7011-220 (33 MHz) , an entry-level desktop workstation, was announced, based on a single chip implementation of the POWER architecture, usually referred to as RISC Single Chip (RSC). I recall we used to say "the pizza box".
RISC System/6000 POWERstation/POWERserver 220, 22W AND 22G
AIX PS/2 Version 1.3
Announcement of AIX PS/2 Operating System Version 1.3 for IBM PS/2.
AIX PS/2 Operating System V1.3 (September 1992)
Withdrawal: IBM AIX PS/2 Operating System 1.3 (December 1994)
The IBM Scalable POWERparallel Systems (SP, now commonly referred to as SP1) offer a scalable platform for both serial and parallel applications. Based on RISC System/6000 technology, the basic component of the in Februari 1993 announced 9076 SP1 is a system frame containing eight to 16 RISC System/6000 processor nodes (max. four frames, 64 nodes).
The SP implements Massively Parallel Processing (MPP). All the processing nodes have their own resources (processors, memory, disks and operating system): the shared nothing architecture.
AIX Parallel Environment
SP models 001, 002, 003, 004, A01, AND 101
More SP models
2001 SP Overview
The RISC System/6000 model 7011-250 (66 MHz) workstation, the first to be based on the 32-bit PowerPC 601 processor, was introduced in September 1993.
The 601 was the first processor arising out of a partnership between IBM, Motorola, and Apple. From IBM, the RISC Single Chip (RSC) microprocessor became the base design for 601. The superscalar machine organization of the 601 was improved to achieve greater performance and additional custom circuit design was applied to reduce the die size and to allow higher frequency operation. The Motorola 88110 microprocessor bus interface formed the basis of the development of the 601 bus interface.
The 601 did not implement the full PowerPC instruction set (some infrequently used instruction where excluded) and some new instructions and features were added, such as support for symmetric multiprocessor (SMP) systems. The 601 is capable of dispatching, executing, and completing up to 3 instructions per cycle. Instructions issue to multiple execution units (an integer unit, a branch processing unit, and a floating-point unit), execute in parallel, and can complete out of order.
An SMP has multiple processors that have their own cache, the memory and devices are shared.
The 601 was a bridge from POWER to the full PowerPC architecture, such as the 603, 604, and 604e.
POWERstation/POWERserver 250 Series
The model 7013-590 (66 MHz) was announced in September 1993 and was the first RS/6000 based on the 32-bit POWER2 architecture. The most significant improvement introduced with the POWER2 architecture for scientific and technical applications is that the floating-point unit (FPU) contains two 64-bit execution units, so that two floating-point multiply-add instructions may be executed each cycle. A second fixed-point execution unit is also provided. In addition, several new hardware instructions were introduced with POWER2: quad-word storage instructions, hardware square root instruction and floating-point to integer conversion instructions.
Initial models: 7013-58H (55 MHz), 7013-590 (66 MHz), 7015-990 (71.5 MHz).
POWER2 and PowerPC architecture
AIX Version 3.2.5
AIX V3.2.5 is announced: Maturity (stability, quality).
AIX Version 3.2.5 (September, 1993)
The RS/6000 7007-N40 (50 MHz) notebook workstation (introduced in March) is the ideal portable companion for mobile professionals who want to take AIX on the road. Based on the PowerPC 601.
7007-N40 IBM RS/6000 Model N40
The Scalable POWERparallel Systems 2 (SP2) was announced in April 1994. Based on IBM's RISC System/6000 microprocessor technology and running AIX/6000 (as it was named then), the SP2 could scale from two to 128 nodes (processing elements). Using a POWER2 processor and other options it performed twice the processing power of the SP1 system.
Scalable POWERparallel Systems 9076 SP2 and Enhancements for SP1
Scalable Parallel Computing
9076-xxx SP Family
AIX Version 4.1
AIX Version 4.1 is announced: Scalability (PowerPC support, 4-way SMP, Client/Server pkg), new Standards compliance, Simplicity (graphical, fast installation, Common Desktop Environment), HACMP Clustering.
AIX Version 4.1 (July, 1994)
AIX Version 4 Overview and Product Life Cycle Dates
AIX Version 4.2 Overview and Product Life Cycle Dates
AIX Version 4.3 Overview and Product Life Cycle Dates
1995 PowerPC 604
32-bit PowerPC 604 RISC System/6000 microprocessor (120 MHz) upgrade announced for the RISC System/6000 model 7020-40P (66 MHz).
Motorola/IBM PowerPC 604/604e
Windows NT PowerPC Edition
Announcement of Windows NT Workstation 3.51 for RS/6000 40P, 43P and with NT 4.0 (1996) other models.
Hmmm ... I'm not going to try it on my 43P ...
Windows NT Workstation 3.51 Now Supports IBM Power Series
Windows NT Support for PowerPC Computers
1996 POWER2 Super Chip
October 1996 the RS/6000 model 7013-595 (135 MHz) was announced with the new 32-bit POWER2 Super Chip (also known as P2SC). The P2SC is a single chip implementation of the POWER2 eight-chip architecture, containing 15 million transistors on a single chip using high-density CMOS-6S technology. It powered the wide and thin nodes in SP systems.
SP POWER2 Super Chip Nodes
In October (?) IBM renames RISC System/6000: RS/6000.
October 1996, announcement of the portable workstation RS/6000 model 860 (166 MHz) - notebook - using the 32-bit PowerPC 603e processor.
The 43P models 140 and 240 with 32-bit PowerPC 604e RS/6000 microprocessor (166 MHz) are announced. The 604e is a superscalar processor capable of issuing four instructions simultaneously. As many as seven instructions can finish execution in parallel.
PowerPC 604e Technical Library
Windows NT for the PowerPC withdrawn
AIX Version 4.2
AIX Version 4.2 is announced: High-end scalability ( 8-way SMP, >2GB memory), Standards: UNIX95 brand, RAS Enhancements, NFS V3.
AIX Version 4.2 (April 23)
The RS64 (also known as Apache) is the first 64-bit PowerPC RISC processor (October 1997). The RS64 is a superscalar processor optimized for commercial workloads. The processor has separate 64 KB L1 cache for instructions and data and L2 cache controllers. The L2 caches run at full processor speed. The RS64 contains a 16 byte interface to 2-way set associative 4MB L2 cache. The RS64 is also used in the AS/400 (called A35). Predecessors of the A35, only running OS/400 are the A10 (a.k.a. Cobra), the world's first 64-bit PowerPC microprocessor, and A25 (a.k.a. Muskie).
IBM brings 64-bit technology to the market introducing the RS/6000 Enterprise Server model 7017-S70 (125 MHz, code named Raven), the first 12-way SMP system, and AIX Version 4.3.
RS/6000 Enterprise Server Model S70 Blazes the 64-Bit Trail
AIX Version 4.3
AIX Version 4.3 is announced: Higher levels of scalability (24-way SMP, 96 GB memory), 32/64-bit API support, UNIX98 Branding, Networking/Security (TCP/IP V6, IPsec), Web System Management, AIX Workload Manager, Java JDT/JIT, 32-bit/64-bit application coexistence and concurrent execution (the kernel is still 32 bits).
AIX Version 4.3 (October 1997)
AIX Version 4.3.1 (April 1998)
AIX Version 4.3.2 (October 1998)
1998 RS64 II
PowerPC RS64 II 64-bit RISC microprocessor (also know as NorthStar) is the first in the Star series processor family.
The in July 1998 announced RS64-II contains a dedicated 32 byte interface to a private 4-way set associative 8MB L2 cache. The processor target operating frequency is 262 MHz. The 262 MHz cards contain four processors per card. Up to three 4-way cards can be installed in a RS/6000 7017-S70 to create a 4-way, 8-way, or 12-way system.
New Processors Enhance the IBM RS/6000 Model S70 Performance
The new 64-bit POWER3 processor, announced October 1998, unifies the POWER2 architecture (P2SC) with the PowerPC architecture, and was optimized for technical applications.
The SMP-capable POWER3 design allows for concurrent operation of fixed-point instructions, load/store instructions, branch instructions, and floating-point instructions. The POWER3 is capable of executing up to four floating-point operations per cycle (two multiply-add instructions). Integer performance has been significantly enhanced over the P2SC with the addition of dedicated integer and load/store execution units. The chip features eight execution units fed by a 6.4 gigabyte-per-second memory subsystem. The core includes two high-bandwidth buses: a 128-bit 6XX architecture bus to main memory and 256-bit bus to the L2 cache that runs at processor speed. The POWER3 also has on-chip 64KB data cache and a 32KB instruction cache.
IBM's first 64-bit symmetric multiprocessor (SMP) workstation is the POWER3 based RS/6000 43P 7043-260 (200 MHz).
RS/6000 43P 7043 Model 260
The POWER3 Microarchitecture
Overview of Recent Supercomputers
History of POWER processors
Characterization of Web Server Workloads on Three Generations of IBM PowerPC Microarchitectures (PDF)
PowerPC RS64 III 64-bit RISC microprocessor (also known as Pulsar) using copper technology. The RS64 III microprocessor powers the in September 1999 announced RS/6000 model 7017-S80 (450 MHz). The frequency of 450 MHz was accomplished by using IBM's new copper technology (CMOS 7S). The RS64 III has 8 MB of Level 2 (L2) cache per processor. The 6-way SMP can be expanded to a 24-way SMP and the system memory can be expanded to 96 GB.
Custom circuit design as a driver of microprocessor performance
AIX Version 4.3.3
AIX Version 4.3.3 is announced.
AIX Version 4.3.x Overview and Product Life Cycle Dates
AIX Version 4.3.3 UNIX Operating System ( September 1999)
The 64-bit POWER3-II microprocessor design is based on IBM's advanced CMOS 7S process, which is a re-implementation of POWER3 using copper interconnects.
New RS/6000 model 44P 7044-270 (375 MHz) using the 1-4 way SMP with POWER3-II copper-based microprocessor.
The POWER3-III didn't surface, so POWER4 is the next ...
Power3-II 375/450 MHz Processors
RS/6000 44P 7044 Model 270
Back to the Future: Copper Comes of Age
In October IBM renames RS/6000: eServer pSeries.
IBM introduces servers for the next generation of e-business
A Server By Any Other Name
PowerPC RS64 IV 64-bit RISC microprocessor (also known as Sstar) using copper and SOI technology.
The in October 2000 announced pSeries 680 (600 MHz) a is 6- to 24-way 64-bit SMP server with up to 96GB of system memory and 16MB L2 cache for each 600 MHz processor.
A multithreaded PowerPC processor for commercial servers
AIX 5L Version
The initial release of AIX 5L was not generally available. It was an Early Adopter Release for OEM's and application developers to begin development of true 64-bit applications for a 64-bit AIX kernel.
|Silicon-on-insulator ( SOI) technology improves performance over bulk CMOS technology by up to 35% and reduces power requirements by up to 66%. SOI refers to placing a thin layer of silicon on top of an insulator such as silicon oxide or glass. The transistors would then be built on top of this thin layer of SOI. The basic idea is that the SOI layer will reduce the capacitance (the ability of a structure to store electrical charge) of the switch, so it will operate faster. SOI protects the millions transistors on a chip with a blanket of insulation, reducing harmful electrical effects that consume energy and hinder performance. The first SOI/copper-based chip was shipped in May 1999 (a PowerPC processor used in new AS/400 models).|
The POWER4 "Gigaprocessor" copper SOI 64-bit CMP microprocessor is based on all earlier designs.
174-million-transistor POWER4 chip, with two 1.1/1.3 GHz five-issue superscalar microprocessor cores, a triple-level cache hierarchy, up to 256 GB memory, a 10-Gbyte/s main-memory interface, and a 45-Gbyte/s multiprocessor interface. The POWER4 is a CMP chip, which means that it incorporates multiple processors on a single piece of silicon.
AIX 4.3.3 is not supported on Power4.
IBM Journal of R & D - Vol. 46, No. 1, 2002 - IBM POWER4 System
pSeries 690 System Handbook
p690 -- a collection of white papers
p690 puts SPECjbb2000 leadership to rest
POWER4 System Microarchitecture
eSever pSeries 690 Announcement
pSeries 690: Virtual Tour
IBM POWER4 microprocessor focuses on memory bandwidth (PDF)
IBM Project Regatta
Logical Partitioning (LPAR)
Linux and AIX link up on IBM's biggest Unix server
Silicon-on-insulator (SOI) and Copper Technology
VARBusiness: IBM’s p690 Server: Less Is More
AIX 5L Version 5.1
AIX 5L Version 5.1 is announced in April: Higher levels of scalability (POWER4 Support, 32-way SMP, 256GB memory, full 64bit kernel and device drivers, Logical Partitioning), Advanced RAS, Networking enhancements, Java 2 Version1.3, Linux Application Support (Linux affinity). AIX 5.1 also supports 32-bit POWER architecture and Intel Itanium (on a limited basis) architecture.
AIX 5L Version 5.1
Monterey - AIX on Itanium ?
Gartner assesses IBM's AIX 5L OS - Source: ZDNet
The RS/6000 SP system hosts dozens to hundreds of RISC processor nodes facilitating parallel processing capability.
The basic SP building block is the processor node. It consists of a POWER3 or PowerPC Symmetric Multiprocessors (SMP), memory, Peripheral Component Interconnect (PCI) expansion slots for Input/Output (I/O) and connectivity, and disk devices. Nodes have either a Symmetric MultiProcessor (SMP) configuration (using PCI) or a uniprocessor configuration (using MCA). The three types of nodes (thin, wide, and high) may be mixed in a system and are housed in short or tall system frames. Depending on the type of nodes used, an SP tall frame can contain up to 16 nodes and an SP short frame can contain up to 8 nodes. These frames can be interconnected to form a system with up to 128 nodes (512 by special order). Each node contains its own copy of the AIX operating system.
RS/6000 SP and Clustered IBM eServer pSeries Systems Handbook
RS/6000 SP Processors
Advanced Computer Technology Center (ACTC)
RS/6000 SP Resource Center
RS/6000 SP Planning Volume 1, Hardware and Physical Environment
The POWER4+ processors (the name POWER4-II circulated before the announcement) are announced in November 2002.
Source: ComputerWire, 21/01/2002
IBM launches world's most powerful eight-way UNIX server and new POWER4+ processor
AIX 5L Version
AIX 5L Version 5.2 is announced in October:
Logical Partitioning (LPAR) Support
Dynamic LPAR adds or removes processors, adapters and memory without requiring a reboot
Dynamic reconfigurations APIs permit middleware and applications to automatically adjust to system resource changes
Dynamic Capacity Upgrade on Demand (CUoD) permits activation of additional processors without requiring a reboot
Dynamic Processor Sparing (with CUoD) permits substitution of failed processors with spare, unlicensed processors
Scalability, Capacity and Resource Management
Memory Affinity and Scheduling Affinity localize workloads internally by utilizing a subset of processors that share uniform access to a subset of system memory on POWER4 enterprise systems
JFS2 file size and file system support increased to 16TB and adds native file system snapshot support
Enablement added for VERITAS File System
Workload Manager module is dynamic for the management of resources within a partitioned or single-image system. Enhanced to offer time-based resource policies and automatic administrator notification when resource limits reached on "per class" basis. New resources managed include number of processes, logins and connect time
Networking Performance and Technology
Adds Mobile IPv6 enabling the connection of hand-held devices to the internet
Network tunable parameters can be persistent and managed through SMIT or through Web-based System Manager
Reliability, Availability & Serviceability (RAS)
Base / Standards
Tools for Performance, debugging and transition
AIX Documentation Library
AIX Documentation (PDF)
All AIX Commands (fast!)
AIX V5.2 Release Notes
AIX 5L V5.2 Announcement
AIX Statement of Direction (PDF)
Differences Guide AIX 5.2
Installation Guide AIX 5.2 (PDF)
Functional Enh. Summary (PDF)
Functional list of AIX commands
Product Life Cycle Dates AIX 5.2
POWER4+ Speeds Up
In May 2003 the pSeries 655 and pSeries 670/690 servers are upgraded with faster POWER4+ processors. For the first time trial/temporary Capacity Upgrade on Demand (CUoD) is available in the pSeries (add processors and/or memory on-the-fly).
The original POWER4 chips were made using a 180 nanometer copper/SOI process. The new dual-core POWER4+ chip is made using a 130 nanometer copper/SOI process resulting in a higher clock speed and a generated heath reduction. The new POWER4+ versions for the pSeries 670/690 machines will run at 1.5GHz and 1.7GHz.
The higher performance of the pSeries 670/690 is also due to the introduction of a new optional RIO-2 (Remote I/O-2) backplane with support for 1GHz I/O busses that support 133MHz PCI-X peripheral cards. This results in a aggregate I/O bandwidth of 14 GB/sec for the pSeries 670 (was 6GB/sec) and 44 GB/sec for the pSeries 690 (was 16GB/sec). The new memory cards of the pSeries 670/690 are twice as dense as prior memory cards. Faster L3-cache runs at 567 MHz. The pSeries 670 now supports up to 256GB of main memory and the pSeries 690 up to 512GB. RIO-2 is also available for the pSeries 650/655.
The 4-8 way pSeries 655 supports the 1.5GHz and the 1.7GHz POWER4+ chip and the existing 1.1GHz and the 1.3GHz POWER4 chip. The machine starts shipping by the end of May; upgrades start shipping end of July.
The 4-8-16 way pSeries 670 only supports the POWER4+ chip running at 1.5GHz and the existing 1.1GHz POWER4 chip.
The 8-16-32 way pSeries 690 supports the 1.5GHz and the 1.7GHz POWER4+ chip and the existing 1.1GHz and the 1.3GHz POWER4 chip. The pSeries 670/690 starts shipping by the end of May; upgrades start shipping in August.
DLPAR has been improved to support 4 partitions on the pSeries 650/655 (was 2), 16 on the pSeries 670 (was 4) and 32 on the pSeries 690.
pSeries Announcement Brief (PDF)
IBM introduces new high-end eServer systems fueled by POWER4+ processors
IBM pSeries and IBM RS/6000 Performance Report (PDF)
pSeries 670/690 with faster POWER4+ and double maximum Memory
pSeries 655 with faster POWER4+ and additional Memory Options
pSeries 650 with CUoD and faster Performance using RIO-2 Adapters
Capacity Upgrade on Demand
The BladeCenter JS20 with PowerPC 970 (PPC 970), 1.6 GHz processors is announced November 11,2003. IBM plans to support AIX in the third quarter of 2004.
The 64-bit PowerPC 970, a single-core version of POWER4, can process 200 instructions at once at speeds of up to 2 GHz and beyond while consuming just tens of watts of power. It is used in Apple desktops, Apple Xserve servers, imaging applications, and -- increasingly -- in networking applications.
BladeCenter JS20 — Fast 1.6 GHz SMP processor brings POWER technology to the BladeCenter environment
POWER5-based servers, which will support 64-way SMP and up to 512GB of main memory.
POWER5 (code-named Squadron) and POWER6 processors are planned to have an ability called "Fast Path", that takes over tasks that software currently handles more slowly. The acceleration feature will speed up several communication tasks, including the TCP/IP processing used to read and write data on the Internet, and the Message Passing Interface (MPI), used to harness clusters of computers into a collective supercomputer. And the chip will accelerate virtual memory subsystem, a frequently used operating system feature that manages how higher-speed regular memory can be expanded by using slower but bigger hard drives.
POWER5, which will be built initially with 130-nanometer (0.13 micron) features, also will feature "simultaneous multithreading," a feature that allows a single chip to act as two.
IBM plans to use POWER5 in "blade" servers as well, super-thin servers stacked densely like books in a bookshelf. POWER4 produces 125 watts of power, but a blade processor is constrained to about 25 to 40 watts.
"Partitioning," the ability to split a single big server into several smaller ones, will improve. POWER4 permits a partition that's the size of a single processor, but POWER5 will allow hundreds of partitions.
Ravi Arimilli (chief technology officer for IBM's Power line) stated in a recent interview that IBM's coming POWER5 processor was "95 to 97 percent" of the way toward a mainframe processor.
Source: eWeek, May 19, 2003
Source: CNET, 17/02/03
Source: The Register, 17/12/2002
Source: ComputerWire, 7/03/2002
Source: CNET, 25/04/2002
AIX 5L Version 5.3
AIX 5L Version 5.3 is expected somewhere around August 2004.
Main features: sub-processor DLPARs (10 LPARs per processor), virtual IO, intra-partition virtual ethernet, and shrink filesystem.
Photos: Courtesy of International Business Machines Corporation. Unauthorized use not permitted.