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>remotes/1693381142243034077/jamesk-patch-1
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---
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title: OpenPOWER Related Resources
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output:
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- html
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- json
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- rss
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date: 2022-01-04
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draft: false
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---
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---
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title: OpenPOWER Foundation Development Platform Reference SP010 Design
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link: https://files.openpower.foundation/s/qKxzR9oPRnygpQp
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tags:
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- system
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- power8
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- referencedesign
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- tyan
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- sp010
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date: 2016-04-24
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draft: false
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---
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Collection of hardware designs for the SP010 POWER8 reference platform.
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This OpenPOWER Development Platform Workgroup Note provides the material used for the design of
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the Tyan SP010 development system as a reference for developers of OpenPOWER systems based on the IBM POWER8 chipset.
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---
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title: IBM CAPI Developers Community
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link: https://www.ibm.com/developerworks/community/groups/community/CAPI_Developers_Community
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tags:
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- capi
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- accelerator
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- acceleration
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date: 2016-03-24
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draft: true
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---
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The CAPI Developers Community is intended to enable POWER8 CAPI Developer Kit users to collaborate with other users on
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usage, issues, questions & to innovate.
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** DEPRICATED - UPDATE BEFORE PUBLISHING **
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---
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title: IBM Performance Optimization and Tuning Techniques for IBM Power Systems Processors Including IBM POWER8
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link: https://www.redbooks.ibm.com/abstracts/sg248171.html
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tags:
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- software
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- toolchain
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- compilers
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date: 2016-03-26
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draft: false
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---
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This IBM® Redbooks® publication focuses on gathering the correct technical information,
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and laying out simple guidance for optimizing code performance on IBM POWER8® processor-based systems.
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There is straightforward performance optimization that can be performed with a minimum of effort and
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without extensive previous experience or in-depth knowledge.
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---
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title: IBM Guide to port Linux on x86 applications to Linux on Power
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link: https://power-developer.mybluemix.net/porting-guide/
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tags:
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- linux
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- porting
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- developer
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date: 2016-03-25
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draft: false
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---
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Step-by-step IBM Developer Portal guide for porting applications from x86 Linux to POWER,
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including application assessment, port planning and selecting development tools.
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---
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title: IBM POWER10 Functional Simulator
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link: https://www14.software.ibm.com/webapp/set2/sas/f/pwrfs/pwr10/home.html
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tags:
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- power10
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- simulator
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- cpu
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- processor
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- isa
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date: 2022-01-09
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draft: false
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---
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The IBM POWER10 Functional Simulator is a simulation environment developed by IBM.
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It is designed to provide enough POWER10 processor complex functionality to allow the entire software stack to execute,
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including loading, booting and running a little endian Linux environment.
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The intent for this tool is to educate, enable new application development,
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and to facilitate porting of existing Linux applications to the POWER10 architecture.
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While the IBM POWER10 Functional Simulator serves as a full instruction set simulator for the POWER10 processor,
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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.
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---
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title: IBM POWER8 Dellovo
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link: https://www-50.ibm.com/systems/power/openpower/tgcmDocumentRepository.xhtml?aliasId=POWER8_with_NVIDIA_NVLink
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tags:
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- processor
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- cpu
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- power8
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date: 2022-01-07
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draft: false
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---
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The POWER8 Dellovo is based on IBM® Power Architecture®, IBM® POWER8® with NVIDIA® NVLink™ Technology systems are designed
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for use in high-performance computing (HPC) and data analytics systems.
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They consist of superscalar multiprocessors that are massively multithreaded.
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The NVLink interconnect enables ultra-fast communication between the central processing unit (CPU) and
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the graphics processing unit (GPU) and between GPUs.
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POWER8 with NVLink systems incorporate the high-speed differential POWER8 Memory Buffer, which supports several DDR technologies.
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---
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title: IBM POWER8 Functional Simulator
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link: https://www14.software.ibm.com/webapp/set2/sas/f/pwrfs/home.html
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tags:
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- power8
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- simulator
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- cpu
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- isa
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date: 2022-01-09
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draft: false
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---
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The IBM POWER8 Functional Simulator is a simulation environment developed by IBM.
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It is designed to provide enough POWER8 processor complex functionality to allow the entire software stack to execute,
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including loading, booting and running a Fedora 20 BE (Big Endian) kernel image or a Debian LE (Little Endian) kernel image.
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The intent for this tool is to educate, enable new application development,
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and to facilitate porting of existing Linux applications to the POWER8 architecture.
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While the IBM POWER8 Functional Simulator serves as a full instruction set simulator for the POWER8 processor,
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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.
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---
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title: IBM POWER8 Turismo
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link: https://www-50.ibm.com/systems/power/openpower/tgcmDocumentRepository.xhtml?aliasId=POWER8
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tags:
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- processor
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- cpu
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- power8
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date: 2021-01-07
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draft: false
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---
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The IBM POWER8 Turismo CPU is based on IBM® Power Architecture®, IBM® POWER8® systems are optimized for the cloud, big data, and analytics.
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They consist of superscalar multiprocessors that are massively multithreaded.
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POWER8 systems incorporate the high-speed differential POWER8 memory buffer, which supports several DDR technologies.
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POWER8 systems use the Coherent Accelerator Processor Interface (CAPI) to attach specialized processors,
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and permit them direct access to the memory address space.
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---
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title: IBM POWER9 Functional Simulator
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link: https://www14.software.ibm.com/webapp/set2/sas/f/pwrfs/pwr9/home.html
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tags:
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- power9
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- simulator
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- cpu
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- processor
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- isa
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date: 2022-01-09
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draft: false
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---
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The IBM POWER9 Functional Simulator is a simulation environment developed by IBM.
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It is designed to provide enough POWER9 processor complex functionality to allow the entire software stack to execute,
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including loading, booting and running a little endian Linux environment.
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The intent for this tool is to educate, enable new application development,
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and to facilitate porting of existing Linux applications to the POWER9 architecture.
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While the IBM POWER9 Functional Simulator serves as a full instruction set simulator for the POWER9 processor,
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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.
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---
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title: IBM POWER9 LaGrange
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link: https://www-50.ibm.com/systems/power/openpower/tgcmDocumentRepository.xhtml?aliasId=POWER9_LaGrange
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tags:
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- processor
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- cpu
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- power9
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date: 2022-01-07
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draft: false
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---
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The IBM POWER9 LaGrange is based on IBM® Power Architecture®, IBM POWER9 systems target technical computing segments
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by providing superior floating-point performance and off-chip floating-point acceleration.
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POWER9 systems, which consist of superscalar multiprocessors that are massively multithreaded, support Cloud operating environments.
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With the Coherent Accelerator Processor Interface (CAPI) attached, POWER9 systems offer a robust platform for analytics and big data applications.
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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
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---
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title: IBM POWER9 Monza
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link: https://www-50.ibm.com/systems/power/openpower/tgcmDocumentRepository.xhtml?aliasId=POWER9_Monza
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tags:
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- processor
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- cpu
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- power9
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date: 2021-01-07
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draft: false
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---
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The IBM POWER9 Monza is based on IBM® Power Architecture®,
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IBM POWER9 systems target technical computing segments by providing superior floating-point performance and off-chip floating-point acceleration.
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POWER9 systems, which consist of superscalar multiprocessors that are massively multithreaded, support Cloud operating environments.
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With the Coherent Accelerator Processor Interface (CAPI) attached, POWER9 systems offer a robust platform for analytics and big data applications.
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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
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---
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title: IBM POWER9 Sforza
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link: https://www-50.ibm.com/systems/power/openpower/tgcmDocumentRepository.xhtml?aliasId=POWER9_Sforza
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tags:
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- processor
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- cpu
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- power9
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date: 2022-01-07
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draft: false
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---
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The IBM POWER9 Sforza is based on IBM® Power Architecture®,
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IBM POWER9 systems target technical computing segments by providing superior floating-point performance and off-chip floating-point acceleration.
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POWER9 systems, which consist of superscalar multiprocessors that are massively multithreaded, support Cloud operating environments.
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With the Coherent Accelerator Processor Interface (CAPI) attached, POWER9 systems offer a robust platform for analytics and big data applications.
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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
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---
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title: IBM Power Development Cloud
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link: https://www-304.ibm.com/partnerworld/wps/servlet/ContentHandler/stg_com_sys_power-development-platform
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tags:
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- cloud
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- hardwareaccess
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- virtualmachine
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date: 2016-03-24
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draft: false
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---
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The Power Cloud that enables developers offers no-charge remote access to IBM hardware,
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including IBM POWER9, IBM POWER8 and IBM POWER7+ processor-based servers on the Linux, IBM AIX and IBM i operating systems.
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PDP is intended for Development, Porting and Functional testing.
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---
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title: IBM Software Development Toolkit for Linux on Power (no charge)
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link: https://developer.ibm.com/linuxonpower/sdk/
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tags:
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- software
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- compiler
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- toolchain
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- softwaredevelopmentkit
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- eclipse
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date: 2022-01-04
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draft: false
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---
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The IBM Software Development Kit for Linux on Power (SDK) is a free, Eclipse-based Integrated Development Environment (IDE).
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The SDK integrates C/C++ source development with the Advance Toolchain, Post-Link Optimization,
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and classic Linux performance analysis tools, including Oprofile, Perf and Valgrind.
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---
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title: Minicloud by Unicamp
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link: https://openpower.ic.unicamp.br/minicloud/index.html
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tags:
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- cloud
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- power8
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- power9
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date: 2021-01-07
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draft: true
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---
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The FREE OpenPOWER Cloud by Unicamp.
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The Minicloud is hosted by the University of Campinas - Unicamp, which is an academic member of the OpenPower Foundation.
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It provides free access to Power® virtual machines that can be used for development, testing or migration of applications to Power®.
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The virtual machines of Minicloud run on OpenStack®, which supports running a large number of virtual machines on a single scale-out Linux server.
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---
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title: OpenPOWER Abstraction Layer (OPAL) Firmware
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link: https://github.com/open-power
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tags:
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- software
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- firmware
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- linux
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- hostboot
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- petitboot
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- skiboot
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- sbe
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- occ
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- opal
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date: 2016-03-24
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draft: false
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---
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This is the official repository for the open source OpenPOWER firmware implementation.
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It contains the repositories for firmware components, along with the build system to produce firmware builds
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for a large range of existing hardware platforms.
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---
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title: Porting and Benchmarking of BWAKIT pipeline on Open POWER architecture
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link:
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tags:
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- software
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- hardware
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- power8
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- genomemapping
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date: 2017-09-20
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draft: false
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---
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This paper describes how to port various pre-built application binaries used in BWAKIT into OpenPOWER architecture and
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execute the BWAKIT pipeline successfully.
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Next Generation Sequencing (NGS) technology produces large volume of genome data,
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which gets processed using various open source Bioinformatics tools.
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The configuration and compilation of some of the bioinformatics tools (e.g. BWAKIT, root) are challenging,
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requiring application porting for some architectures (e.g. IBM Power).
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Moreover, the application porting should not change the semantics of the program and output generated
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from different architectures should be similar across different architectures.
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Burrows-Wheeler Aligner (BWA) is the most popular genome mapping application used in BWAKIT toolset.
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The BWAKIT provides pre-compiled binaries for x86_64 architecture and end-to-end solution for genome mapping.
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This paper describes how to port various pre-built application binaries used in BWAKIT into OpenPOWER architecture and
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execute the BWAKIT pipeline successfully.
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In addition, it reports the validation of the output results on OpenPOWER to confirm the successful porting of BWAKIT.
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_Note: This paper is the result of collaboration within members of the Personalized Medicine Workgroup and Sidra medical and Research Center._
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---
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title: Power Vector Library
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tags:
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- software
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- vector
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- vsx
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- vmx
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- powervector
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- library
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date: 2022-01-08
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draft: false
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---
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The Power Vector Library are header files that contain useful functions leveraging the PowerISA Vector Facilities :
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Vector Multimedia Extension (VMX AKA Altivec) and Vector Scalar Extension (VSX). Larger functions like
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quadword multiply and multiple quadword multiply and madd are large enough to justify CPU specific and tuned run-time libraries.
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The user can choose to bind to platform specific static archives or dynamic shared object libraries which automatically
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(dynamic linking with IFUNC resolves) select the correct implementation for the CPU it is running on.
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The goal of this project to provide well crafted implementations of useful vector and large number operations :
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- Provide equivalent functions across versions of the PowerISA.
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For example the Vector Multiply-by-10 Unsigned Quadword operations introduced in PowerISA 3.0 (POWER9) can be
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implement in a few vector instructions on earlier PowerISA versions.
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- Provide equivalent functions across versions of the compiler.
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For example builtins provided in later versions of the compiler can be implemented as inline functions with inline asm in earlier compiler versions.
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- Provide higher order functions not provided directly by the PowerISA.
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For example vector SIMD implementation for ASCII ``__isalpha``, etc.
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Another example full ``__int128`` implementations of Count Leading Zeros, Population Count, and Multiply.
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- Provide optimized run-time libraries for quadword integer multiply and multi-quadword integer multiply and add.
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{{ partial "header.html" . }}
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{{ partial "navbar.html" . }}
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<main id="main" class="main ready">
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<section id="ready">
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<div id="ready" class="container-fluid">
|
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<div class="section-header">
|
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<div class="row">
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<div class="col-lg-12 text-center">
|
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<h1 class="section-title text-center">{{ .Title }}</h1>
|
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</div>
|
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</div>
|
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<div class="row">
|
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<div class="col-lg-2"> </div>
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<div class="col-lg-8">{{ .Content }}</div>
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<div class="col-lg-2"> </div>
|
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</div>
|
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<div class="row">
|
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<span class="section-divider"></span>
|
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</div>
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<div class="row">
|
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<div class="col-lg-2"> </div>
|
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<div class="col-lg-8 text-center">
|
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<script src="{{ "/lib/search//jquery-3.3.1.min.js" | relURL }}"></script>
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||||
<script src="{{ "/lib/search/fuse-3.2.0.min.js" | relURL }}"></script>
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<script src="{{ "/lib/search/jquery.mark-8.11.1.min.js" | relURL }}"></script>
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<script>var jsonfile = "{{ .RelPermalink }}/index.json"</script>
|
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{{ $searchjavascript := resources.Get "js/search.js" }}
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{{ $searchjs := $searchjavascript | resources.Minify }}
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<script src="{{ $searchjs.RelPermalink }}"></script>
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<div class="my-auto" >
|
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<form action="{{ .RelPermalink }}" onkeyup="executeInlineSearch()">
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<input id="search-query" placeholder="Search..." name="s" autocomplete="off" search autofocus/>
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</form>
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<div id="search-results"><h3 class="search-results-title mb-4">Matching items</h3></div>
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</div>
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<script id="search-result-template" type="text/x-js-template">
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<div class="search-results-summary">
|
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<div class="search-results" id="summary-${key}">
|
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<h4><a class="search-item" href="${link}">${title}</a></h4>
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${ isset tags }<p>${tags}</p>${ end }
|
||||
</div>
|
||||
</div>
|
||||
</script>
|
||||
</div>
|
||||
<div class="col-lg-2"> </div>
|
||||
</div>
|
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<div class="row">
|
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<span class="section-divider"></span>
|
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</div>
|
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</div>
|
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<div class="row">
|
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{{ range (.Paginate .Data.Pages.ByTitle 30).Pages }}
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{{ $imagename := .Param "image" }}
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{{ $imagelocation := (printf "%s/%s" "images/resources/" $imagename) }}
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{{ $imageresource := resources.Get $imagelocation }}
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<article class="post__article col-md-4">
|
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{{ if $imageresource }}
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<div class="post__thumb">
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{{ $image := $imageresource.Resize "50x50 webp" }}
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<img class="img-fluid" src="{{ $image.RelPermalink }}" width="50" height="50" alt="{{ .Title }}">
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</div>
|
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{{ end }}
|
||||
<a class="post__title btn btn-outline-primary" href="{{ .Permalink }}">{{ .Title }}</a>
|
||||
</article>
|
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{{ end }}
|
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</div>
|
||||
<div class="row">
|
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<div class="col-lg-4"> </div>
|
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<div class="col-lg-4 text-center">
|
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{{ template "_internal/pagination.html" . }}
|
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</div>
|
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<div class="col-lg-4"> </div>
|
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</div>
|
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</div>
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</section>
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</main>
|
||||
{{ partial "footer.html" . }}
|
@ -0,0 +1,5 @@
|
||||
{{- $.Scratch.Add "index" slice -}}
|
||||
{{- range .Data.Pages -}}
|
||||
{{- $.Scratch.Add "index" (dict "title" .Title "permalink" .Permalink "contents" .Plain "tags" .Params.tags) }}
|
||||
{{- end -}}
|
||||
{{- $.Scratch.Get "index" | jsonify -}}
|
@ -0,0 +1,91 @@
|
||||
{{ partial "header.html" . }}
|
||||
{{ partial "navbar.html" . }}
|
||||
<main id="main">
|
||||
<section id="page" class="section-bg">
|
||||
<div class="container-fluid">
|
||||
<div class="section-header">
|
||||
<h2 class="section-title text-center">{{ .Title }}</h2>
|
||||
<p class="section-description"></p>
|
||||
<span class="section-divider"></span>
|
||||
</div>
|
||||
<div class="row">
|
||||
<div class="col-lg-2"> </div>
|
||||
<div class="col-lg-6">
|
||||
{{ if .Param "link" }}
|
||||
<a href="{{ .Param "link" }}">{{ .Param "link" }} <i class="fas fa-external-link-alt"></i></a>
|
||||
{{ end }}
|
||||
</div>
|
||||
<div class="col-lg-4"></div>
|
||||
</div>
|
||||
<div class="row">
|
||||
<div class="col-lg-2"> </div>
|
||||
<div class="col-lg-6 content wow fadeInTop">
|
||||
<p>{{ .Content }}</p>
|
||||
{{ if .Param "image" }}
|
||||
<p> </p>
|
||||
{{ $imagename := .Param "image" }}
|
||||
{{ $imagelocation := (printf "%s/%s" "images/ready/" $imagename) }}
|
||||
{{ $imageresource := resources.Get $imagelocation }}
|
||||
{{ $image := $imageresource.Fit "600x600 webp" }}
|
||||
<p><img src="{{ $image.RelPermalink }}" alt="{{ .Title }}" title="{{ .Title }}"></p>
|
||||
{{ end }}
|
||||
</div>
|
||||
<div class="col-lg-4 details">
|
||||
<ul>
|
||||
{{ if .Param "vendor" }}
|
||||
<li>Vendor : {{ .Param "vendor" }}</li>
|
||||
{{ end }}
|
||||
{{ if .Param "criteria" }}
|
||||
<li>Criteria Version : {{ .Param "criteria" }}</li>
|
||||
{{ end }}
|
||||
<li>Date Added : {{ .Date.Format "2 January 2006" }}</li>
|
||||
</ul>
|
||||
{{ if .Params.tags }}
|
||||
{{ $tags := .Params.tags }}
|
||||
<h4>Tags</h4>
|
||||
<ul id="tags">
|
||||
<li>
|
||||
{{ if not (eq (len $.Site.Taxonomies.tags) 0) }}
|
||||
{{ $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 . }}
|
||||
|
||||
<span style="font-size: {{ $currentFontSize }}{{ $fontUnit }}">{{ $name }}</span>
|
||||
|
||||
{{ end }}
|
||||
{{ end }}
|
||||
{{ end }}
|
||||
</li>
|
||||
</ul>
|
||||
{{ end }}
|
||||
{{ end }}
|
||||
</div>
|
||||
</div>
|
||||
<div class="row">
|
||||
<div class="col-lg-1"> </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"> </div>
|
||||
</div>
|
||||
</div>
|
||||
</section>
|
||||
</main>
|
||||
{{ partial "footer.html" . }}
|
Loading…
Reference in New Issue