AI & ChatGPT searches , social queriess for LINPACK BENCHMARKS
Search references for LINPACK BENCHMARKS. Phrases containing LINPACK BENCHMARKS
See searches and references containing LINPACK BENCHMARKS!
Search references for LINPACK BENCHMARKS. Phrases containing LINPACK BENCHMARKS
See searches and references containing LINPACK BENCHMARKS!LINPACK BENCHMARKS
Measure of a systems floating point architecture
The LINPACK benchmarks are a measure of a system's floating-point computing power. Introduced by Jack Dongarra, they measure how fast a computer solves
LINPACK_benchmarks
Mathematical software
LINPACK makes use of the BLAS (Basic Linear Algebra Subprograms) libraries for performing basic vector and matrix operations. The LINPACK benchmarks appeared
LINPACK
Standardized performance evaluation
Filesystem benchmark LINPACK benchmarks – traditionally used to measure FLOPS Livermore loops NAS parallel benchmarks NBench – synthetic benchmark suite measuring
Benchmark_(computing)
Database project devoted to the ranking of computers
computing and bases rankings on HPL benchmarks, a portable implementation of the high-performance LINPACK benchmark written in Fortran for distributed-memory
TOP500
Type of extremely powerful computer
LINPACK benchmarks and shown as "Rmax" in the TOP500 list. The LINPACK benchmark typically performs LU decomposition of a large matrix. The LINPACK performance
Supercomputer
Measure of computer performance
supercomputer on TOP500, reaching 1102 petaFlops (1.102 exaFlops) on the LINPACK benchmarks. [circular reference] In November 2024, the United States’ El Capitan
Floating point operations per second
Floating_point_operations_per_second
Routines for performing common linear algebra operations
that is hand-optimized for many of the popular architectures. The LINPACK benchmarks rely heavily on the BLAS routine gemm for its performance measurements
Basic Linear Algebra Subprograms
Basic_Linear_Algebra_Subprograms
Ranking of supercomputers from the TOP500 by energy efficiency
performance per watt using the TOP500 measure of high performance LINPACK benchmarks at double-precision floating-point format. The Green500 List was created
Green500
Computing with supercomputers and clusters
Performance LINPACK (HPL) benchmark. Not all existing computers are ranked, either because they are ineligible (e.g., they cannot run the HPL benchmark) or because
High-performance_computing
denotes Rmax – the highest sustained performance measured using the LINPACK benchmarks suite. History of supercomputing List of the top supercomputers in
List_of_fastest_computers
Japanese supercomputer
of Fugaku was a Rmax of 416 petaFLOPS in the FP64 high performance LINPACK benchmark used by the TOP500. After the November 2020 upgrade in the number
Fugaku_(supercomputer)
Benchmark in high-performance computing
complement benchmarks such as the LINPACK benchmarks that put relatively little stress on the internal interconnect. The source of the HPCG benchmark is available
HPCG_benchmark
Synthetic benchmark for evaluating the performance of computers
FLOPS Gibson Mix LINPACK benchmarks Million instructions per second (MIPS) Curnow, H J; Wichmann, B A (1976). "A synthetic benchmark" (PDF). Computer
Whetstone_(benchmark)
Chess-playing computer made by IBM
TOP500 list, achieving 11.38 GFLOPS on the parallel high performance LINPACK benchmark. Deeper Blue was capable of evaluating 200 million positions per second
Deep_Blue_(chess_computer)
Supercomputer
also the first supercomputer to score above one teraflops on the LINPACK benchmark, a test that measures a computer's calculation speed. Later upgrades
ASCI_Red
American supercomputer manufacturer
Jaguar and was the fastest computer in the world as measured by the LINPACK benchmark at the speed of 1.75 petaflops until being surpassed by the Tianhe-1A
Cray
Supercomputer in Jiangsu, China
November 2025[update], is ranked 24th in the TOP500 list, with a LINPACK benchmark rating of 93 petaflops. The name is translated as divine power, the
Sunway_TaihuLight
(1979). LINPACK users' guide. Society for Industrial and Applied Mathematics. Dongarra, J. J., Luszczek, P., & Petitet, A. (2003). The LINPACK benchmark: past
List_of_numerical_libraries
Federal research center in Tennessee, US
of ORNL and the University of Tennessee wrote the LINPACK software library and LINPACK benchmarks, used to calculate linear algebra and the standard
Oak_Ridge_National_Laboratory
project. The system uses 40,960 SW26010s to obtain 93.01 PFLOPS on the LINPACK benchmark. SW26010P includes 6 core groups (CGs), each of which includes one
Sunway_SW26010
Series of supercomputers by IBM
024 compute nodes, achieved first place in the TOP500 list, with a LINPACK benchmarks performance of 70.72 TFLOPS. It thereby overtook NEC's Earth Simulator
IBM_Blue_Gene
Supercomputer developed by IBM
the TOP500 list from June 2018 to June 2020. As of June 2024, its LINPACK benchmark was clocked at 148.6 petaFLOPS. Summit was decommissioned on November
Summit_(supercomputer)
Topics referred to by the same term
to: The Yamaha R-MAX unmanned helicopter In the high performance LINPACK benchmarks of supercomputers it refers to the performance in GFLOPS for the largest
R_max
American supercomputer
of GPUs to perform at a theoretical peak of 27 petaFLOPS; in the LINPACK benchmark used to rank supercomputers' speed, it performed at 17.59 petaFLOPS
Titan_(supercomputer)
1993 supercomputer by Fujitsu and NAL
1109/HPC.1997.592130. Rmax – The highest score measured using the LINPACK benchmark suite. This is the number that is used to rank the computers. Measured
Numerical_Wind_Tunnel
Machines. "HPL – A Portable Implementation of the High-Performance Linpack Benchmark for Distributed-Memory Computers". Retrieved 2015-02-21. Hopper (1978)
History of programming languages
History_of_programming_languages
Computer's capacity to move data around
varies from application to application, but it is clear that the LINPACK benchmarks traditionally used for rating the FLOPS of supercomputers do not require
Traversed_edges_per_second
sources. Traditional benchmarks that existed before NPB, such as the Livermore loops, the LINPACK Benchmark and the NAS Kernel Benchmark Program, were usually
NAS_Parallel_Benchmarks
HPC Challenge Benchmark combines several benchmarks to test a number of independent attributes of the performance of high-performance computer (HPC) systems
HPC_Challenge_Benchmark
Series of supercomputers by IBM
peak performance of 136.19 GFLOPS, it obtained 88.40 GFLOPS on the LINPACK benchmark. Deep Blue, the first computer to win a chess game against a reigning
IBM_RS/6000_SP
Series of supercomputers by NEC
was the fastest supercomputer from June 2002 to June 2004 on the LINPACK benchmark, achieving 35.86 TFLOPS. The SX-9 was introduced in 2007 and discontinued
NEC_SX
sustained Linpack benchmark of 0.46 TFLOPS. In principle, the SST machine has a peak speed of 3.8 TFLOPS, but is as yet unmeasured in benchmark terms. "Blue2000
ASCI_Blue_Pacific
ADEPT – 4 suites relating to energy measurements HPCC, HPCG, Linpack IMB (Intel MPI Benchmark) – gives rates for common MPI-1 point-to-point and collectives
List of benchmarking methods and software tools
List_of_benchmarking_methods_and_software_tools
Series of supercomputers for earth sciences
the oceans down to a resolution of 10 km. Its performance on the LINPACK benchmark was 35.86 TFLOPS, which was almost five times faster than the previous
Earth_Simulator
2003 supercomputer at Virginia Tech
university computer to achieve 10 teraflops on the high performance LINPACK benchmark. In 2003 it was also touted as "the world's most powerful and cheapest
System_X_(supercomputer)
Family of supercomputers
processing cores, was the second fastest system in the world for the LINPACK benchmark, the fastest system available for open science and the first system
Cray_XT5
Computer energy efficiency
power consumed. This rate is typically measured by performance on the LINPACK benchmark when trying to compare between computing systems: an example using
Performance_per_watt
was released; this had a sustained performance of 38 GFLOPS on the LINPACK benchmark. The C-DAC's third mission was to develop a teraFLOPS range computer
Supercomputing_in_India
32-bit microprocessor
rather more modest gains over the 80486 and SPARC in Motorola's chosen LINPACK benchmark, largely confined to double-precision operations, and vendor literature
Motorola_68040
General-purpose programming language
the High-Performance Linpack Benchmark for Distributed-Memory Computers". Retrieved February 21, 2015. "Q13. What are the benchmarks?". Overview – CPU 2017
Fortran
Supercomputer centre in Linköping, Sweden
the Triolith supercomputer which achieved 407.2 Teraflops on the LINPACK benchmark which rendered it place 79 on the November 2013 issue of the Top500
National Supercomputer Centre in Sweden
National_Supercomputer_Centre_in_Sweden
Japanese research organization
the K computer was being installed at Riken, in 2011 it topped the LINPACK benchmark with the performance of 8.162 petaFLOPS, or 8.162 quadrillion calculations
Riken
Fujitsu supercomputer
was the first supercomputer to obtain more than 10 PFLOPS on the LINPACK benchmark. In its largest configuration, the PRIMEHPC FX10 has a peak performance
PRIMEHPC_FX10
Supercomputer by Cray Research
p. 10. Dongarra, Jack (2007). "Frequently Asked Questions on the Linpack Benchmark and Top500". Netlib. Retrieved 2014-01-14. Arthur Trew and Greg Wilson
Cray_Y-MP
1024 processor system of the SR2201 achieved 220.4 GFLOPS on the LINPACK benchmark, which corresponded to 72% of the peak performance. H. Fujii, Y. Yasuda
Hitachi_SR2201
Server computer product line
2007, a Sun SPARC Enterprise M9000 achieved 1.032 TFLOPS on the LINPACK benchmark, making it the fastest single system supercomputer at that time. On
SPARC_Enterprise
Volunteer computing project
Cray-2 (the fastest computer in the world in 1985) on an embedded LINPACK benchmark. There is currently no government funding for SETI research, and private
SETI@home
Computer systems capable of one petaFLOPS
be noted that there are alternative precision measures using the LINPACK benchmarks which are not part of the standard metric/definition. It has been
Petascale_computing
Former government agency in the UK
Dongarra and Frank McMahon, respectively authors of the Linpack and Livermore Loops, key benchmarks of the day for scientific applications. In 1992, the
Central Computer and Telecommunications Agency
Central_Computer_and_Telecommunications_Agency
Supercomputer system
Because it's not a general-purpose machine capable of running the LINPACK benchmarks, MDGRAPE-3 does not qualify for the TOP500 list. Supercomputing in
RIKEN_MDGRAPE-3
Distributed memory massively parallel MIMD supercomputer
XT3 machine installed at Sandia, measured 102.7 teraflops on the Linpack benchmark, placing it at #6 on the list. After upgrades in 2008 to install some
Cray_XT3
Multi-core microprocessor microarchitecture
having gained a sustained 1.026 petaFLOPS speed using the standard LINPACK benchmark. IBM Roadrunner used the PowerXCell 8i version of the Cell processor
Cell_(processor)
Topics referred to by the same term
refers to the maximum amplitude in the R wave In the high performance LINPACK benchmarks of supercomputers it refers to the theoretical peak performance of
R_peak
Supercomputer in China
C2050 GPUs, it has a peak performance of 1.271 petaflops using the LINPACK benchmark suite. Nebulae was ranked the second most powerful computer in the
Nebulae_(computer)
resulted in a peak performance of 124.4 teraflops, or 101.4 running the Linpack benchmark. A second major upgrade in 2008 introduced Cray XT4 technology: Quad-core
Red_Storm_(computing)
Design of high-performance computers
in the TOP500 ratings because they do not run the general purpose Linpack benchmark. Although grid computing has had success in parallel task execution
Supercomputer_architecture
American software company
TOP500 as the 242nd most powerful computer, based on results on the LINPACK benchmark. Synopsys has been a constituent of the Nasdaq-100 and S&P 500 indices
Synopsys
1985 supercomputer model
2 matched the historical performance of the Cray-2 on an embedded LINPACK benchmark. Due to the use of liquid cooling, the Cray-2 was given the nickname
Cray-2
Overview of technology development
purpose computer, it can not appear on the TOP500 list which requires Linpack benchmarking. The next significant system is Japan Atomic Energy Agency's PRIMERGY
Supercomputing_in_Japan
Line of Intel server and workstation processors
on April 4, 2007. The X5365 performs up to around 38 GFLOPS in the LINPACK benchmark. On November 11, 2007 Intel presented Yorkfield-based Xeons – called
Xeon
Rating of supercomputer systems
complex data problems", instead of focusing on computer benchmarks like HPL (High Performance Linpack), which TOP500 is based on. Despite its name, there
Graph500
1980s supercomputer
reached 10 GFLOPS. A single-processor ETA10 achieved 52 MFLOPS on the LINPACK benchmark for a matrix with a size of 100 × 100. The ETA10 was a multiprocessor
ETA10
the Triolith supercomputer which achieved 407.2 Teraflop/s on the Linpack benchmark which placed it 79th on the November 2013 TOP500 list of the fastest
Supercomputing_in_Europe
real time. 93.01 × 1015: Sunway TaihuLight's LINPACK performance, June 2016 143.5 × 1015: Summit's LINPACK performance, November 2018 1 × 1018: Fugaku
Computer performance by orders of magnitude
Computer_performance_by_orders_of_magnitude
first system ever to break through the 1 teraflop barrier on the MP-Linpack benchmark in 1996; eventually reaching 2 teraflops. Significant progress was
History_of_supercomputing
October 2015. Dongarra, Jack (2007). "Frequently Asked Questions on the Linpack Benchmark and Top500". Netlib. Archived from the original on 1 September 2009
Fujitsu_VP2000
Distributed computing project simulating protein folding
legacy LINPACK benchmark. This short-term testing has difficulty in accurately reflecting sustained performance on real-world tasks because LINPACK more
Folding@home
Computational paradigm for supercomputing
to the TOP500 ratings because they do not run the general purpose Linpack benchmark. A key strategy for grid computing is the use of middleware that partitions
Quasi-opportunistic supercomputing
Quasi-opportunistic_supercomputing
Microprocessor designed by Fujitsu
computer (still incomplete with only 68,544 processors) topped the LINPACK benchmark at 8.162 PFLOPS, realizing 93% of its peak performance, making it
SPARC64_V
method or the Verlet-Störmer method) for dynamics. Creation of LINPACK and associated benchmark by Dongarra et al., as well as BLAS. Progress in wavelet theory
Timeline of numerical analysis after 1945
Timeline_of_numerical_analysis_after_1945
American computer scientist
the number 1 position from November 2018 to June 2020. Its current LINPACK benchmark is clocked at 148.6 petaFLOPS. Gschwind was an early advocate of many-core
Michael_Gschwind
Series of computing systems
globally, delivering 606.97 petaFLOPS on the High-Performance LINPACK (HPL) benchmark. This performance represents a substantial increase from the combined
HPC_(Eni)
Supercomputer in Kobe, Japan
20 June 2011, the TOP500 Project Committee announced that K had set a LINPACK record with a performance of 8.162 petaflops, making it the fastest supercomputer
K_computer
Supercomputing platform
performed at over 1 petaFLOPS in benchmarks; however, the project managers do not believe in the relevance of the LINPACK benchmark used by the TOP500 organisation
Cray_XK7
American research center, 1985–1995
that, there were only kernels and focused algorithm approaches (Linpack, NAS benchmarks). In the following decade the idea became popular, especially as
University of Illinois Center for Supercomputing Research and Development
University_of_Illinois_Center_for_Supercomputing_Research_and_Development
American computer scientist (born 1950)
implementation of the following open-source software packages and systems: EISPACK, LINPACK, the Basic Linear Algebra Subprograms (BLAS), Linear Algebra Package (LAPACK)
Jack_Dongarra
IBM supercomputer at Lawrence Livermore National Laboratory
Sequoia replaced the K computer as the world's fastest supercomputer, with a LINPACK performance of 17.17 petaflops, 63% faster than the K computer's 10.51
Sequoia_(supercomputer)
Supercomputer designed for applications in lattice quantum chromodynamics
architecture achieved an energy signature of 773 MFLOPS per Watt in the Linpack benchmark. In the Top500 list of most powerful supercomputers, QPACE ranked
QPACE
Measure of supercomputer performance
floating-point format) operations per second using the High Performance LINPACK (HPLinpack) benchmark. In 2018, Chinese scientists predicted that the first zettascale
Zettascale_computing
Topics referred to by the same term
low-power, a TSMC semiconductor wafer type HPL (benchmark), an implementation of the LINPACK computing benchmark H. P. Lovecraft (1890–1937), American author
HPL
sustained performance of 47 TeraFLOPS on the standard High Performance Linpack (HPL) benchmark. The system is in production mode and released to users. In 2001
Anupam_(supercomputer)
Chinese microprocessor manufacturer
reported peak performance of 1 TFLOPS, and about 350 GFLOPS measured by LINPACK. This supercomputer was designed by a joint team led by Chen Guoliang at
Loongson
Mainframe computer systems made by IBM through the 1950s and early 1960s
such as the Whetstone (1972), Dhrystone (1984), LINPACK (1979), or Livermore loops (1986) benchmarks. In the table below, the Gibson and Knight measurements
IBM_700/7000_series
RISC instruction set architecture
systems for SPEC CPU95 and CPU2000 benchmarks. The 296 MHz UltraSPARC-II is the reference system for the SPEC CPU2006 benchmark. SPARC is a load–store architecture
SPARC
Sixth-generation x86 microprocessor by Intel
computer, taking the No.1 spot on the 9th TOP500 list in June 1997 with a Linpack performance of 1.068 teraflop/s. [...] It was a mesh-based (38 X 32 X 2)
Pentium_Pro
High-performance computing center
capability of 1.2576 petaflops as measured by the High-Performance LINPACK (HPL) benchmark. It debuted as the world's 13th fastest computer in the November
NCAR-Wyoming Supercomputing Center
NCAR-Wyoming_Supercomputing_Center
Artificial intelligence computer system made by IBM
Pearson estimated Watson's hardware cost at about three million dollars. Its Linpack performance stands at 80 TeraFLOPs, which is about half as fast as the
IBM_Watson
2022. Frontier can achieve 1.194 exaflops in the high-performance Linpack (HPL) benchmark. The system uses 8,699,904 CPU and GPU cores and features HPE's
Valentina_Salapura
Nuclear research facility in Mumbai, India
and PARALLEL PROCESSING SUPERCOMPUTER ANUPAM-ATULYA:Provides sustained LINPACK performance of 1.35 PetaFlops for solving complex scientific problems.
Bhabha_Atomic_Research_Centre
Computer systems capable of one exaFLOPS
floating-point format) operations per second using the High Performance LINPACK (HPLinpack) benchmark. Whilst a distributed computing system had broken the 1 exaFLOPS
Exascale_computing
Supercomputer
but their computing power was not counted into the machine's official LINPACK statistics as of October 2010. Tianhe-1A has a theoretical peak performance
Tianhe-1
simulator with a flight dynamics engine (JSBSim) that was used in a 2015 NASA benchmark to judge new simulation code to space industry standards SimPy – queue-theoretic
List of free and open-source software packages
List_of_free_and_open-source_software_packages
LINPACK BENCHMARKS
LINPACK BENCHMARKS
LINPACK BENCHMARKS
LINPACK BENCHMARKS
Boy/Male
Australian, German, Turkish
Victory
Boy/Male
Indian, Telugu
Beautiful
Girl/Female
Arabic, Hindu, Indian, Kannada, Muslim, Telugu
Ancient Name of River Narmada
Boy/Male
Australian, German, Scandinavian
Father of Peace
Girl/Female
Australian, Hebrew, Italian
Italian Form of Judith; Praised; Jewish
Female
English
Variant spelling of German Frieda, FREIDA means "peaceful ruler." Compare with another form of Freida.
Boy/Male
Muslim
Restrainer of anger
Female
Egyptian
, an Egyptian lady.
Boy/Male
Muslim
Gifts
Boy/Male
American, British, English
Falcon; A Form of Merle
LINPACK BENCHMARKS
LINPACK BENCHMARKS
LINPACK BENCHMARKS
LINPACK BENCHMARKS
LINPACK BENCHMARKS
v. t.
To separate and remove, as things packed; to open and remove the contents of; as, to unpack a trunk.
n.
Any whale of the genera Sibbaldius, Balaenoptera, and allied genera, of the family Balaenopteridae, characterized by a prominent fin on the back. The common finbacks of the New England coast are Sibbaldius tectirostris and S. tuberosus.
v. t.
To relieve of a pack or burden.
n.
A finback whale.
n.
A finback whale.
n.
One of several finback whales of the North Atlantic; -- called also Jupiter whale.