add opf resources section

* add & sanitize all resources from old website
* create resource layout similar to ready layout

Signed-off-by: Toshaan Bharvani <toshaan@vantosh.com>
jamesk-patch-1
Toshaan Bharvani 3 years ago
parent 6151df5f1d
commit ac60ba3482

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---
title: OpenPOWER Related Resources
output:
- html
- json
- rss
date: 2022-01-04
draft: false
---

@ -0,0 +1,16 @@
---
title: OpenPOWER Foundation Development Platform Reference SP010 Design
link: https://files.openpower.foundation/s/qKxzR9oPRnygpQp
tags:
- system
- power8
- referencedesign
- tyan
- sp010
date: 2016-04-24
draft: false
---

Collection of hardware designs for the SP010 POWER8 reference platform.
This OpenPOWER Development Platform Workgroup Note provides the material used for the design of
the Tyan SP010 development system as a reference for developers of OpenPOWER systems based on the IBM POWER8 chipset.

@ -0,0 +1,24 @@
---
title: FPGA Enablement for CAPI2.0
link: https://github.com/open-power/snap
tags:
- hardware
- software
- fpga
- capi
- snap
date: 2020-02-13
draft: false
---

The purpose of this documentation is to describe how to enable a new customer card to support CAPI SNAP framework.
SNAP is a open-source programming framework for FPGA Accelerations.
Its homepage is https://github.com/open-power/snap.
With it, you can develop accelerators with CAPI technology easily.

This documentation describes the flow and steps to enable a new PCIe FPGA card to have CAPI2.0 features,
and to support SNAP developing framework.
If your PCIe FPGA card is not listed on todays available “SNAP enabled cards” (On the homepage README of SNAP Github),
this documentation will guide you on how to enable it.
Since all of the project files are open-source, you can create a Github repository fork, and create a new board support package (BSP) and
walk through the working flow to enable SNAP.

@ -0,0 +1,17 @@
---
title: IBM Advanced Toolchain for Linux on Power
link: https://developer.ibm.com/linuxonpower/advance-toolchain/
tags:
- software
- compiler
- linux
- toolchain
- gcc
- glibc
- gdb
date: 2016-05-03
draft: false
---

Set of open source development tools and runtime libraries which allows users to take leading edge advantage of
IBMs latest POWER hardware features on Linux

@ -0,0 +1,15 @@
---
title: IBM CAPI Developers Community
link: https://www.ibm.com/developerworks/community/groups/community/CAPI_Developers_Community
tags:
- capi
- accelerator
- acceleration
date: 2016-03-24
draft: true
---

The CAPI Developers Community is intended to enable POWER8 CAPI Developer Kit users to collaborate with other users on
usage, issues, questions & to innovate.

** DEPRICATED - UPDATE BEFORE PUBLISHING **

@ -0,0 +1,16 @@
---
title: IBM Performance Optimization and Tuning Techniques for IBM Power Systems Processors Including IBM POWER8
link: https://www.redbooks.ibm.com/abstracts/sg248171.html
tags:
- software
- toolchain
- compilers
date: 2016-03-26
draft: false
---

This IBM® Redbooks® publication focuses on gathering the correct technical information,
and laying out simple guidance for optimizing code performance on IBM POWER8® processor-based systems.
There is straightforward performance optimization that can be performed with a minimum of effort and
without extensive previous experience or in-depth knowledge.

@ -0,0 +1,26 @@
---
title: IBM Portal for OpenPOWER
link: https://www.ibm.com/systems/power/openpower/
tags:
- power8
- power9
- referencedesign
- portal
- capi
date: 2017-04-19
draft: false
---

The IBM Portal for OpenPOWER was developed to provide a central location for documentation on Power Systems servers.
The IBM Portal for OpenPOWER gives users the ability to quickly find material of interest to foster innovation in developing around POWER.

- Users Manuals
- Datasheets
- Reference Design documentation
- Firmware Training
- Mechanical documentation
- System Tools
- much more ... , to foster innovation in developing around POWER.

This new portal replaces IBM Customer Connects OpenPOWER Connect space that OpenPOWER Members and
other OpenPOWER interested parties may have used in the past.

@ -0,0 +1,13 @@
---
title: IBM Guide to port Linux on x86 applications to Linux on Power
link: https://power-developer.mybluemix.net/porting-guide/
tags:
- linux
- porting
- developer
date: 2016-03-25
draft: false
---

Step-by-step IBM Developer Portal guide for porting applications from x86 Linux to POWER,
including application assessment, port planning and selecting development tools.

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---
title: IBM POWER10 Functional Simulator
link: https://www14.software.ibm.com/webapp/set2/sas/f/pwrfs/pwr10/home.html
tags:
- power10
- simulator
- cpu
- processor
- isa
date: 2022-01-09
draft: false
---

The IBM POWER10 Functional Simulator is a simulation environment developed by IBM.
It is designed to provide enough POWER10 processor complex functionality to allow the entire software stack to execute,
including loading, booting and running a little endian Linux environment.
The intent for this tool is to educate, enable new application development,
and to facilitate porting of existing Linux applications to the POWER10 architecture.
While the IBM POWER10 Functional Simulator serves as a full instruction set simulator for the POWER10 processor,
it may not model all aspects of the IBM Power Systems POWER10 hardware and thus may not exactly reflect the behavior of the POWER10 hardware.

@ -0,0 +1,18 @@
---
title: IBM POWER8 CAPI Features, Benefits & Products
link:
tags:
- ibm
- power8
- acceleration
- nallatech
- capi
date: 2016-03-24
draft: true
---

The Coherent Accelerator Processor Interface (CAPI) on IBM POWER8 systems is a new means for solution architects to gain system-level performance.
CAPI connects a custom acceleration engine to the coherent fabric of the POWER8 chip.
The hybrid solution has a simple programming paradigm while delivering performance well beyond todays I/O attached acceleration engines.

** DEPRICATED : LINK NEEDS TO BE UPDATED **

@ -0,0 +1,17 @@
---
title: IBM POWER8 Dellovo
link: https://www-50.ibm.com/systems/power/openpower/tgcmDocumentRepository.xhtml?aliasId=POWER8_with_NVIDIA_NVLink
tags:
- processor
- cpu
- power8
date: 2022-01-07
draft: false
---

The POWER8 Dellovo is based on IBM® Power Architecture®, IBM® POWER8® with NVIDIA® NVLink™ Technology systems are designed
for use in high-performance computing (HPC) and data analytics systems.
They consist of superscalar multiprocessors that are massively multithreaded.
The NVLink interconnect enables ultra-fast communication between the central processing unit (CPU) and
the graphics processing unit (GPU) and between GPUs.
POWER8 with NVLink systems incorporate the high-speed differential POWER8 Memory Buffer, which supports several DDR technologies.

@ -0,0 +1,19 @@
---
title: IBM POWER8 Functional Simulator
link: https://www14.software.ibm.com/webapp/set2/sas/f/pwrfs/home.html
tags:
- power8
- simulator
- cpu
- isa
date: 2022-01-09
draft: false
---

The IBM POWER8 Functional Simulator is a simulation environment developed by IBM.
It is designed to provide enough POWER8 processor complex functionality to allow the entire software stack to execute,
including loading, booting and running a Fedora 20 BE (Big Endian) kernel image or a Debian LE (Little Endian) kernel image.
The intent for this tool is to educate, enable new application development,
and to facilitate porting of existing Linux applications to the POWER8 architecture.
While the IBM POWER8 Functional Simulator serves as a full instruction set simulator for the POWER8 processor,
it may not model all aspects of the IBM Power Systems POWER8 hardware and thus may not exactly reflect the behavior of the POWER8 hardware.

@ -0,0 +1,16 @@
---
title: IBM POWER8 Turismo
link: https://www-50.ibm.com/systems/power/openpower/tgcmDocumentRepository.xhtml?aliasId=POWER8
tags:
- processor
- cpu
- power8
date: 2021-01-07
draft: false
---

The IBM POWER8 Turismo CPU is based on IBM® Power Architecture®, IBM® POWER8® systems are optimized for the cloud, big data, and analytics.
They consist of superscalar multiprocessors that are massively multithreaded.
POWER8 systems incorporate the high-speed differential POWER8 memory buffer, which supports several DDR technologies.
POWER8 systems use the Coherent Accelerator Processor Interface (CAPI) to attach specialized processors,
and permit them direct access to the memory address space.

@ -0,0 +1,17 @@
---
title: IBM POWER8 Processor User Manual
link: https://ibm.ent.box.com/s/649rlau0zjcc0yrulqf4cgx5wk3pgbfk
tags:
- processor
- cpu
- power8
- usermanual
date: 2018-05-11
draft: false
---

This users manual describes the IBM POWER8 processor single-chip module (SCM) features, facilities, components, and use.
It provides information about the POWER8 processor from a programming model point of view,
and is intended to be a companion to the Power Instruction Set Architecture (ISA) documentation.
This document focuses primarily on the microprocessor core and the storage subsystem.
It is intended for system software and hardware developers and application programmers.

@ -0,0 +1,20 @@
---
title: IBM POWER9 Functional Simulator
link: https://www14.software.ibm.com/webapp/set2/sas/f/pwrfs/pwr9/home.html
tags:
- power9
- simulator
- cpu
- processor
- isa
date: 2022-01-09
draft: false
---

The IBM POWER9 Functional Simulator is a simulation environment developed by IBM.
It is designed to provide enough POWER9 processor complex functionality to allow the entire software stack to execute,
including loading, booting and running a little endian Linux environment.
The intent for this tool is to educate, enable new application development,
and to facilitate porting of existing Linux applications to the POWER9 architecture.
While the IBM POWER9 Functional Simulator serves as a full instruction set simulator for the POWER9 processor,
it may not model all aspects of the IBM Power Systems POWER9 hardware and thus may not exactly reflect the behavior of the POWER9 hardware.

@ -0,0 +1,17 @@
---
title: IBM POWER9 LaGrange
link: https://www-50.ibm.com/systems/power/openpower/tgcmDocumentRepository.xhtml?aliasId=POWER9_LaGrange
tags:
- processor
- cpu
- power9
date: 2022-01-07
draft: false
---

The IBM POWER9 LaGrange is based on IBM® Power Architecture®, IBM POWER9 systems target technical computing segments
by providing superior floating-point performance and off-chip floating-point acceleration.
POWER9 systems, which consist of superscalar multiprocessors that are massively multithreaded, support Cloud operating environments.
With the Coherent Accelerator Processor Interface (CAPI) attached, POWER9 systems offer a robust platform for analytics and big data applications.

The POWER9 LaGrange module has the following key characteristics: 68.5 mm x 68.5 mm, FC-PLGA, 8 DDR4, 42 PCIe Lanes and 2 XBus 4B

@ -0,0 +1,17 @@
---
title: IBM POWER9 Monza
link: https://www-50.ibm.com/systems/power/openpower/tgcmDocumentRepository.xhtml?aliasId=POWER9_Monza
tags:
- processor
- cpu
- power9
date: 2021-01-07
draft: false
---

The IBM POWER9 Monza is based on IBM® Power Architecture®,
IBM POWER9 systems target technical computing segments by providing superior floating-point performance and off-chip floating-point acceleration.
POWER9 systems, which consist of superscalar multiprocessors that are massively multithreaded, support Cloud operating environments.
With the Coherent Accelerator Processor Interface (CAPI) attached, POWER9 systems offer a robust platform for analytics and big data applications.

The POWER9 Monza module has the following key characteristics: 68.5 mm x 68.5 mm, FC-PLGA, 8 DDR4, 34 PCIe Lanes and 1 XBus 4B

@ -0,0 +1,17 @@
---
title: IBM POWER9 Sforza
link: https://www-50.ibm.com/systems/power/openpower/tgcmDocumentRepository.xhtml?aliasId=POWER9_Sforza
tags:
- processor
- cpu
- power9
date: 2022-01-07
draft: false
---

The IBM POWER9 Sforza is based on IBM® Power Architecture®,
IBM POWER9 systems target technical computing segments by providing superior floating-point performance and off-chip floating-point acceleration.
POWER9 systems, which consist of superscalar multiprocessors that are massively multithreaded, support Cloud operating environments.
With the Coherent Accelerator Processor Interface (CAPI) attached, POWER9 systems offer a robust platform for analytics and big data applications.

The POWER9 Sforza module has the following key characteristics: 50 mm x 50 mm, FC-PLGA, 4 DDR4, 48 PCIe Lanes and 1 XBus 4B

@ -0,0 +1,19 @@
---
title: IBM POWER9 Processor User Manual
link: https://ibm.ent.box.com/s/tmklq90ze7aj8f4n32er1mu3sy9u8k3k
tags:
- processor
- cpu
- power9
- usermanual
date: 2018-05-11
draft: false
---

The IBM® POWER9™ processor is a superscalar symmetric multiprocessor designed for use in servers and large-cluster systems.
It uses 14 nm technology with 17 metal layers.
The POWER9 processor supports direct-attach memory.
It supports a maximum symmetric multiprocessing (SMP) size of two sockets and is targeted for scale-out workloads.
This users manual describes the POWER9 processor and provides information about the registers, facilities, initialization,
and use of the POWER9 processor.
This document focuses primarily on the microprocessor core and the storage subsystem.

@ -0,0 +1,14 @@
---
title: IBM Power Development Cloud
link: https://www-304.ibm.com/partnerworld/wps/servlet/ContentHandler/stg_com_sys_power-development-platform
tags:
- cloud
- hardwareaccess
- virtualmachine
date: 2016-03-24
draft: false
---

The Power Cloud that enables developers offers no-charge remote access to IBM hardware,
including IBM POWER9, IBM POWER8 and IBM POWER7+ processor-based servers on the Linux, IBM AIX and IBM i operating systems.
PDP is intended for Development, Porting and Functional testing.

@ -0,0 +1,17 @@
---
title: IBM Software Development Toolkit for Linux on Power (no charge)
link: https://developer.ibm.com/linuxonpower/sdk/
tags:
- software
- compiler
- toolchain
- softwaredevelopmentkit
- eclipse
date: 2022-01-04
draft: false
---

The IBM Software Development Kit for Linux on Power (SDK) is a free, Eclipse-based Integrated Development Environment (IDE).
The SDK integrates C/C++ source development with the Advance Toolchain, Post-Link Optimization,
and classic Linux performance analysis tools, including Oprofile, Perf and Valgrind.

@ -0,0 +1,18 @@
---
title: IBM Linux® on Power Developer Portal
link: https://power-developer.mybluemix.net/
tags:
- software
- linux
- cloud
- virtualmachine
- applications
date: 2016-03-25
draft: false
---

IBM® and Linux® deliver servers, software, and solutions built on the IBM Power Systems™ platform.
IBMs Power servers run industry standard Linux from Red Hat®, SUSE™ and Canonicals Ubuntu®.
This website is your source for technical assistance with Linux software on Power systems (IBM and OpenPOWER),
including forums for questions, libraries of technical resources and tools, references to free cloud access,
a database of commonly available packages for Linux on Power, and step-by-step guide to migrating Linux applications.

@ -0,0 +1,16 @@
---
title: Minicloud by Unicamp
link: https://openpower.ic.unicamp.br/minicloud/index.html
tags:
- cloud
- power8
- power9
date: 2021-01-07
draft: true
---

The FREE OpenPOWER Cloud by Unicamp.

The Minicloud is hosted by the University of Campinas - Unicamp, which is an academic member of the OpenPower Foundation.
It provides free access to Power® virtual machines that can be used for development, testing or migration of applications to Power®.
The virtual machines of Minicloud run on OpenStack®, which supports running a large number of virtual machines on a single scale-out Linux server.

@ -0,0 +1,19 @@
---
title: Nallatech CAPI Developer Kit
link: http://www.nallatech.com/solutions/openpower-capi-developer-kit-for-power-8/
tags:
- power8
- fpga
- capi
- acceleration
date: 2016-03-25
draft: true
---

IBMs CAPI technology provides a high-performance, coherent processor attach for computation-heavy algorithms on an FPGA.
This innovation removes the overhead and complexity of the I/O subsystem,
allowing an accelerator to operate as part of an application with a smaller programming investment.
The CAPI Developer Kit is now available through OpenPOWER member Nallatech.
Nallatech provides the CAPI FPGA Card, documentation, software, and support required to implement a CAPI solution.

** DEPRICATED LINK - UPDATE BEFORE PUBLISHING **

@ -0,0 +1,18 @@
---
title: NVIDIA CUDA for IBM POWER
link: https://developer.nvidia.com/cuda-toolkit
tags:
- gpu
- acceleration
- machinelearning
- artificialintelligence
- cuda
- nvlink
date: 2016-03-25
draft: false
---

The NVIDIA® CUDA® Toolkit provides a comprehensive development environment for C and C++ developers building GPU-accelerated applications.
The CUDA Toolkit includes a compiler for NVIDIA GPUs, math libraries, and tools for debugging and optimizing the performance of your applications.
Youll also find programming guides, user manuals, API reference, and other documentation to help
you get started quickly accelerating your application with GPUs.

@ -0,0 +1,20 @@
---
title: OpenPOWER Abstraction Layer (OPAL) Firmware
link: https://github.com/open-power
tags:
- software
- firmware
- linux
- hostboot
- petitboot
- skiboot
- sbe
- occ
- opal
date: 2016-03-24
draft: false
---

This is the official repository for the open source OpenPOWER firmware implementation.
It contains the repositories for firmware components, along with the build system to produce firmware builds
for a large range of existing hardware platforms.

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---
title: Porting and Benchmarking of BWAKIT pipeline on Open POWER architecture
link:
tags:
- software
- hardware
- power8
- genomemapping
date: 2017-09-20
draft: false
---

This paper describes how to port various pre-built application binaries used in BWAKIT into OpenPOWER architecture and
execute the BWAKIT pipeline successfully.

Next Generation Sequencing (NGS) technology produces large volume of genome data,
which gets processed using various open source Bioinformatics tools.
The configuration and compilation of some of the bioinformatics tools (e.g. BWAKIT, root) are challenging,
requiring application porting for some architectures (e.g. IBM Power).
Moreover, the application porting should not change the semantics of the program and output generated
from different architectures should be similar across different architectures.
Burrows-Wheeler Aligner (BWA) is the most popular genome mapping application used in BWAKIT toolset.
The BWAKIT provides pre-compiled binaries for x86_64 architecture and end-to-end solution for genome mapping.
This paper describes how to port various pre-built application binaries used in BWAKIT into OpenPOWER architecture and
execute the BWAKIT pipeline successfully.
In addition, it reports the validation of the output results on OpenPOWER to confirm the successful porting of BWAKIT.

_Note: This paper is the result of collaboration within members of the Personalized Medicine Workgroup and Sidra medical and Research Center._


@ -0,0 +1,25 @@
---
title: Porting GPU-Accelerated Applications to POWER8 Systems
link: https://developer.nvidia.com/blog/porting-gpu-accelerated-applications-power8-systems/
tags:
- software
- gpu
- porting
- power8
date: 2016-03-24
draft: false
---

With the US Department of Energys announcement of plans to base two future flagship supercomputers on
IBM POWER CPUs, NVIDIA GPUs, NVIDIA NVLink interconnect, and Mellanox high-speed networking,
many developers are getting started building GPU-accelerated applications that run on IBM POWER processors.
The good news is that porting existing applications to this platform is easy.
In fact, smooth sailing is already being reported by software development leaders such as
Erik Lindahl, Professor of Biophysics at the Science for Life Laboratory, Stockholm University & KTH,
developer of the GROMACS molecular dynamics package:

_The combination of POWER8 CPUs & NVIDIA Tesla accelerators is amazing.
It is the highest performance we have ever seen in individual cores,
and the close integration with accelerators is outstanding for heterogeneous parallelization.
Thanks to the little endian chip and standard CUDA environment it took us less than 24 hours to port and accelerate GROMACS._

@ -0,0 +1,33 @@
---
title: Power Vector Library


tags:
- software
- vector
- vsx
- vmx
- powervector
- library
date: 2022-01-08
draft: false
---

The Power Vector Library are header files that contain useful functions leveraging the PowerISA Vector Facilities :
Vector Multimedia Extension (VMX AKA Altivec) and Vector Scalar Extension (VSX). Larger functions like
quadword multiply and multiple quadword multiply and madd are large enough to justify CPU specific and tuned run-time libraries.
The user can choose to bind to platform specific static archives or dynamic shared object libraries which automatically
(dynamic linking with IFUNC resolves) select the correct implementation for the CPU it is running on.

The goal of this project to provide well crafted implementations of useful vector and large number operations :

- Provide equivalent functions across versions of the PowerISA.
For example the Vector Multiply-by-10 Unsigned Quadword operations introduced in PowerISA 3.0 (POWER9) can be
implement in a few vector instructions on earlier PowerISA versions.
- Provide equivalent functions across versions of the compiler.
For example builtins provided in later versions of the compiler can be implemented as inline functions with inline asm in earlier compiler versions.
- Provide higher order functions not provided directly by the PowerISA.
For example vector SIMD implementation for ASCII ``__isalpha``, etc.
Another example full ``__int128`` implementations of Count Leading Zeros, Population Count, and Multiply.
- Provide optimized run-time libraries for quadword integer multiply and multi-quadword integer multiply and add.

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@ -0,0 +1,5 @@
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@ -0,0 +1,91 @@
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{{ $fontUnit := "rem" }}
{{ $largestFontSize := 3.5 }}
{{ $smallestFontSize := 0.5 }}
{{ $fontSpread := sub $largestFontSize $smallestFontSize }}
{{ $max := add (len (index $.Site.Taxonomies.tags.ByCount 0).Pages) 1 }}
{{ $min := len (index $.Site.Taxonomies.tags.ByCount.Reverse 0).Pages }}
{{ $spread := sub $max $min }}
{{ $fontStep := div $fontSpread $spread }}
{{ range $name, $taxonomy := $.Site.Taxonomies.tags }}
{{ $currentTagCount := len $taxonomy.Pages }}
{{ $currentFontSize := (add $smallestFontSize (mul (sub $currentTagCount $min) $fontStep) ) }}
{{ $count := len $taxonomy.Pages }}
{{ $weigth := div (sub (math.Log $count) (math.Log $min)) (sub (math.Log $max) (math.Log $min)) }}
{{ $currentFontSize := (add $smallestFontSize (mul (sub $largestFontSize $smallestFontSize) $weigth) ) }}
{{ range $tags }}
{{ if eq $name . }}
&nbsp;
<span style="font-size: {{ $currentFontSize }}{{ $fontUnit }}">{{ $name }}</span>
&nbsp;
{{ end }}
{{ end }}
{{ end }}
</li>
</ul>
{{ end }}
{{ end }}
</div>
</div>
<div class="row">
<div class="col-lg-1">&nbsp;</div>
<div class="col-lg-10 text-center">
<span class="ready-footer">
The OpenPOWER Foundation cannot vouch for information on external sites, links to these are provided as best effort.
In no way does the OpenPOWER Foundation endorse or approve the content on external sites, links.
This is information is kept up to date as frequent as possible.
</span>
</div>
<div class="col-lg-1">&nbsp;</div>
</div>
</div>
</section>
</main>
{{ partial "footer.html" . }}
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