From d219fd11a72acb0942dc832d1bf53578661c241b Mon Sep 17 00:00:00 2001 From: Ankur Sinha (Ankur Sinha Gmail) Date: Aug 05 2015 13:47:22 +0000 Subject: Initial SCM commit. --- diff --git a/.gitignore b/.gitignore index e69de29..dbb6c3b 100644 --- a/.gitignore +++ b/.gitignore @@ -0,0 +1 @@ +/Random123-1.08.tar.gz diff --git a/Random123.spec b/Random123.spec new file mode 100644 index 0000000..ccf329d --- /dev/null +++ b/Random123.spec @@ -0,0 +1,111 @@ +Name: Random123 +Version: 1.08 +Release: 3%{?dist} +Summary: Library of random number generators + +License: BSD +URL: http://www.deshawresearch.com/resources_random123.html +Source0: http://www.deshawresearch.com/downloads/download_random123.cgi/%{name}-%{version}.tar.gz + +BuildRequires: doxygen +BuildArch: noarch + +%description +Random123 is a library of "counter-based" random number generators (CBRNGs), in +which the Nth random number can be obtained by applying a stateless mixing +function to N instead of the conventional approach of using N iterations of a +stateful transformation. CBRNGs were originally developed for use in MD +applications on Anton, but they are ideal for a wide range of applications on +modern multi-core CPUs, GPUs, clusters, and special-purpose hardware. Three +families of non-cryptographic CBRNGs are described in a paper presented at the +SC11 conference: ARS (based on the Advanced Encryption System (AES)), Threefry +(based on the Threefish encryption function), and Philox (based on integer +multiplication). They all satisfy rigorous statistical testing (passing +BigCrush in TestU01), vectorize and parallelize well (each generator can +produce at least 264 independent streams), have long periods (the period of +each stream is at least 2128), require little or no memory or state, and have +excellent performance (a few clock cycles per byte of random output). The +Random123 library can be used with CPU (C and C++) and GPU (CUDA and OpenCL) +applications. + +%package devel +Summary: Development files for %{name} +Provides: %{name} = %{version}-%{release} + +%description devel +Random123 is a library of "counter-based" random number generators (CBRNGs), in +which the Nth random number can be obtained by applying a stateless mixing +function to N instead of the conventional approach of using N iterations of a +stateful transformation. CBRNGs were originally developed for use in MD +applications on Anton, but they are ideal for a wide range of applications on +modern multi-core CPUs, GPUs, clusters, and special-purpose hardware. Three +families of non-cryptographic CBRNGs are described in a paper presented at the +SC11 conference: ARS (based on the Advanced Encryption System (AES)), Threefry +(based on the Threefish encryption function), and Philox (based on integer +multiplication). They all satisfy rigorous statistical testing (passing +BigCrush in TestU01), vectorize and parallelize well (each generator can +produce at least 264 independent streams), have long periods (the period of +each stream is at least 2128), require little or no memory or state, and have +excellent performance (a few clock cycles per byte of random output). The +Random123 library can be used with CPU (C and C++) and GPU (CUDA and OpenCL) +applications. + +%package doc +Summary: Documentation for %{name}. + +%description doc +Documentation for %{name} + +Random123 is a library of "counter-based" random number generators (CBRNGs), in +which the Nth random number can be obtained by applying a stateless mixing +function to N instead of the conventional approach of using N iterations of a +stateful transformation. CBRNGs were originally developed for use in MD +applications on Anton, but they are ideal for a wide range of applications on +modern multi-core CPUs, GPUs, clusters, and special-purpose hardware. Three +families of non-cryptographic CBRNGs are described in a paper presented at the +SC11 conference: ARS (based on the Advanced Encryption System (AES)), Threefry +(based on the Threefish encryption function), and Philox (based on integer +multiplication). They all satisfy rigorous statistical testing (passing +BigCrush in TestU01), vectorize and parallelize well (each generator can +produce at least 264 independent streams), have long periods (the period of +each stream is at least 2128), require little or no memory or state, and have +excellent performance (a few clock cycles per byte of random output). The +Random123 library can be used with CPU (C and C++) and GPU (CUDA and OpenCL) +applications. + +%prep +%setup -q + + +%build +# Header only library +pushd docs + doxygen Doxyfile +popd + +# Wrong file end of line encoding +sed -i 's/\r$//' examples/BUILDVC11.BAT +sed -i 's/\r$//' examples/BUILDVC.BAT + +%install +mkdir -p -m 0755 $RPM_BUILD_ROOT/%{_includedir}/%{name}/ +cp -a include/Random123/* $RPM_BUILD_ROOT/%{_includedir}/%{name}/ + +%files devel +%license LICENSE +%{_includedir}/%{name}/ + +%files doc +%doc examples + +%changelog +* Tue Aug 04 2015 Ankur Sinha 1.08-3 +- Update as per reviewer comments in rhbz 1150445 + +* Fri Jul 31 2015 Ankur Sinha 1.08-2 +- Fix doc build errors. + +* Wed Jan 08 2014 Ankur Sinha 1.08-1 +- Initial rpm build + + diff --git a/sources b/sources index e69de29..f2f7237 100644 --- a/sources +++ b/sources @@ -0,0 +1 @@ +87d2783831c7a95b244868bf754a7f50 Random123-1.08.tar.gz