登录
首页 » matlab » spectre-master

spectre-master

于 2019-01-13 发布
0 147
下载积分: 1 下载次数: 6
我要下载

代码说明:

说明:  The implementation in 1.5x faster than MATLAB 2018a mex code generation (GCC 7.3, Intel Core i7-4790K) for single core mode. * Support GCC, Clang, Intel Compiler. Intel Compiler 2018 in 2.75x faster than GCC 7.3 for single core mode. * OpenMP for SCMA signals loop (outer loop) * `intel_compiler_opt` branch with additional oprimization for Intel Compiler (the fatest results) ## Build * Edit `MATLAB_DIR` in Makefile. * Run `make`. ## Future work Improve of performance.

文件列表:

spectre-master, 0 , 2018-07-04
spectre-master\README.md, 2352 , 2018-07-04
spectre-master\awgn, 0 , 2018-07-04
spectre-master\awgn\betaq_low_v2.m, 4043 , 2018-07-04
spectre-master\awgn\betaq_up_v2.m, 3031 , 2018-07-04
spectre-master\awgn\biawgn_stats.m, 828 , 2018-07-04
spectre-master\awgn\cap_awgn.m, 48 , 2018-07-04
spectre-master\awgn\converse.m, 173 , 2018-07-04
spectre-master\awgn\feinstein_approx.m, 951 , 2018-07-04
spectre-master\awgn\gallager_ach.m, 3250 , 2018-07-04
spectre-master\awgn\kappa.m, 3294 , 2018-07-04
spectre-master\awgn\kappa_inf.m, 221 , 2018-07-04
spectre-master\awgn\kappabeta_ach.m, 683 , 2018-07-04
spectre-master\awgn\ncx2log.m, 1492 , 2018-07-04
spectre-master\awgn\normapx_awgn.m, 186 , 2018-07-04
spectre-master\awgn\normapx_biawgn.m, 148 , 2018-07-04
spectre-master\awgn\optpower.m, 362 , 2018-07-04
spectre-master\awgn\plot_v3.m, 3730 , 2018-07-04
spectre-master\awgn\shannon_ach2.m, 9468 , 2018-07-04
spectre-master\awgn\universe, 0 , 2018-07-04
spectre-master\awgn\universe\load_awgncodes.m, 9154 , 2018-07-04
spectre-master\awgn\universe\me_ldpc, 0 , 2018-07-04
spectre-master\awgn\universe\me_ldpc\.gitignore, 18 , 2018-07-04
spectre-master\awgn\universe\me_ldpc\compute_ab.c, 7802 , 2018-07-04
spectre-master\awgn\universe\me_ldpc\me_multin.m, 2184 , 2018-07-04
spectre-master\awgn\universe\me_ldpc\me_snr.m, 570 , 2018-07-04
spectre-master\awgn\universe\output, 0 , 2018-07-04
spectre-master\awgn\universe\output\.gitignore, 12 , 2018-07-04
spectre-master\awgn\universe\plot_universe.m, 7858 , 2018-07-04
spectre-master\awgn\universe\plot_universe_db.m, 3905 , 2018-07-04
spectre-master\bec, 0 , 2018-07-04
spectre-master\bec\converse.m, 264 , 2018-07-04
spectre-master\bec\converse_spec2.m, 2063 , 2018-07-04
spectre-master\bec\dt_ach.m, 1567 , 2018-07-04
spectre-master\bec\gallager_ach.m, 832 , 2018-07-04
spectre-master\bec\mdist.m, 401 , 2018-07-04
spectre-master\bec\normapx.m, 124 , 2018-07-04
spectre-master\bec\plot_all.m, 846 , 2018-07-04
spectre-master\bec\sumlog2.m, 745 , 2018-07-04
spectre-master\bi-awgn, 0 , 2018-07-04
spectre-master\bi-awgn\converse_mc.m, 12437 , 2018-07-04
spectre-master\bi-awgn\example_per.m, 1068 , 2018-07-04
spectre-master\bi-awgn\example_per.mat, 2776 , 2018-07-04
spectre-master\bi-awgn\example_speff.m, 1240 , 2018-07-04
spectre-master\bi-awgn\example_speff.mat, 1965 , 2018-07-04
spectre-master\block-fading-PAT-SNN, 0 , 2018-07-04
spectre-master\block-fading-PAT-SNN\QPSK_Alamouti_eps.m, 1156 , 2018-07-04
spectre-master\block-fading-PAT-SNN\QPSK_SIMO_eps.m, 1176 , 2018-07-04
spectre-master\block-fading-PAT-SNN\eps_RCUs.m, 183 , 2018-07-04
spectre-master\block-fading-PAT-SNN\eps_RCUs_Alamouti_stable.m, 3481 , 2018-07-04
spectre-master\block-fading-PAT-SNN\eps_RCUs_SPA.m, 994 , 2018-07-04
spectre-master\block-fading-PAT-SNN\eps_RCUs_stable.m, 3357 , 2018-07-04
spectre-master\block-fading-PAT-SNN\idgallagerqpsknn.m, 813 , 2018-07-04
spectre-master\block-fading-PAT-SNN\idsamples.m, 1128 , 2018-07-04
spectre-master\block-fading-PAT-SNN\idsamples_Alamouti.m, 1982 , 2018-07-04
spectre-master\block-fading-PAT-SNN\qpsksample.m, 385 , 2018-07-04
spectre-master\block-fading-PAT-SNN\randcn.m, 400 , 2018-07-04
spectre-master\block-fading-PAT-SNN\relspread.m, 406 , 2018-07-04
spectre-master\bsc, 0 , 2018-07-04
spectre-master\bsc\betanq.m, 2424 , 2018-07-04
spectre-master\bsc\converse.m, 219 , 2018-07-04
spectre-master\bsc\dt_ach.m, 2262 , 2018-07-04
spectre-master\bsc\gallager_ach.m, 867 , 2018-07-04
spectre-master\bsc\normapx.m, 206 , 2018-07-04
spectre-master\bsc\plot_all.m, 1163 , 2018-07-04
spectre-master\bsc\precise_rand.m, 799 , 2018-07-04
spectre-master\bsc\rcu_ach.m, 1585 , 2018-07-04
spectre-master\bsc\sumlog2.m, 822 , 2018-07-04
spectre-master\documentation, 0 , 2018-07-04
spectre-master\documentation\.gitignore, 127 , 2018-07-04
spectre-master\documentation\IEEEabrv.bib, 17463 , 2018-07-04
spectre-master\documentation\Makefile, 5063 , 2018-07-04
spectre-master\documentation\confs-jrnls.bib, 37228 , 2018-07-04
spectre-master\documentation\defs_giuseppe.tex, 1256 , 2018-07-04
spectre-master\documentation\manual.tex, 62676 , 2018-07-04
spectre-master\documentation\plots, 0 , 2018-07-04
spectre-master\documentation\plots\awgn_plot3_ex.eps, 16870 , 2018-07-04
spectre-master\documentation\plots\awgn_plot3_ex.pdf, 7843 , 2018-07-04
spectre-master\documentation\plots\bec_example.eps, 12648 , 2018-07-04
spectre-master\documentation\plots\bec_example.pdf, 5084 , 2018-07-04
spectre-master\documentation\plots\biawgn_plot1_ex.pdf, 16637 , 2018-07-04
spectre-master\documentation\plots\block-csir-mimo.png, 19080 , 2018-07-04
spectre-master\documentation\plots\bsc_example.eps, 12822 , 2018-07-04
spectre-master\documentation\plots\bsc_example.pdf, 5102 , 2018-07-04
spectre-master\documentation\plots\compress_gms.eps, 12340 , 2018-07-04
spectre-master\documentation\plots\energy_awgn.eps, 15752 , 2018-07-04
spectre-master\documentation\plots\energy_awgn.pdf, 6320 , 2018-07-04
spectre-master\documentation\plots\energy_nocsi.eps, 14211 , 2018-07-04
spectre-master\documentation\plots\energy_nocsi.pdf, 5879 , 2018-07-04
spectre-master\documentation\plots\quasi-static-simo.eps, 13904 , 2018-07-04
spectre-master\documentation\plots\quasi-static-simo.pdf, 5700 , 2018-07-04
spectre-master\documentation\plots\snr6eps03M2.pdf, 54666 , 2018-07-04
spectre-master\documentation\refs.bib, 4061 , 2018-07-04
spectre-master\energy-per-bit, 0 , 2018-07-04
spectre-master\energy-per-bit\energy_awgn_ach.m, 889 , 2018-07-04
spectre-master\energy-per-bit\energy_awgn_conv.m, 333 , 2018-07-04
spectre-master\energy-per-bit\energy_awgn_normapx.m, 255 , 2018-07-04
spectre-master\energy-per-bit\energy_csir_conv.m, 1782 , 2018-07-04
spectre-master\energy-per-bit\energy_nocsi_ach_ht.m, 1450 , 2018-07-04
spectre-master\energy-per-bit\energy_nocsi_ach_ml.m, 4122 , 2018-07-04

下载说明:请别用迅雷下载,失败请重下,重下不扣分!

发表评论
粗体
下划线
斜体
删除线
文字颜色
链接
取消链接
表情
图片
插入代码
全屏


0 个回复

  • ANSYS-ACP
    ansys 用于分析纤维增强复合材料的专用模块ACP。非常好的内部培训资料。(ansys fiber reinforced composites for analysis of specific modules ACP. Very good internal training materials.)
    2016-05-11 13:23:21下载
    积分:1
  • Basler pylon SDK x86 3.2.3.3215
    支持basler ACA系列相机32位系统安装包(Support ACA series camera 32 - bit system installation package)
    2018-01-09 09:54:42下载
    积分:1
  • 产品管理系统。本设计的要求是实现入库、库存和出库统一管理,帮助企业实现新产品信息化管理。...
    产品管理系统。本设计的要求是实现入库、库存和出库统一管理,帮助企业实现新产品信息化管理。-product management system. This requirement is designed to achieve storage, inventory, and from the unified management, and help enterprises achieve new product information management.
    2022-06-26 23:32:59下载
    积分:1
  • NTC
    使用NTC热敏电阻进行测温单片机为stc12c5A60s2(Temperature measurement)
    2018-05-17 17:21:37下载
    积分:1
  • zhouzhihua
    说明:  zhouzhihua machine learning book
    2019-07-01 13:49:24下载
    积分:1
  • Hslogic算法仿真,就MATLAB的管道运输与订购优化模型的文档-78658715guandaopushe
    Hslogic算法仿真,就MATLAB的管道运输与订购优化模型的文档。(Hslogic algorithm simulation, on the MATLAB pipeline transportation and ordering optimization model documents.)
    2020-06-22 02:20:01下载
    积分:1
  • VRPTW修改
    车辆路径规划;遗传算法;matlab代码(Vehicle routing problem based on optimum maturation time method)
    2017-11-23 14:12:14下载
    积分:1
  • Game
    这是一本关于游戏服务器打包方法的介绍,在通信传输中,总也离不开打包、解包操作(This is a book about the game server packing method is introduced, in the communication transmission, also always cannot leave packing, unpacking operation )
    2012-09-18 11:07:49下载
    积分:1
  • C8051F120中文资料
    说明:  C8051F120中文资料 帮助需要朋友参考学习使用(C8051F120 datasheet Help Need Friends Reference Learning)
    2019-03-26 09:22:39下载
    积分:1
  • 用java开发终端平台上的Application程序, 比使用C++,Delphi等语言更加容易。 java语言似乎天生就适合团队开发。但是,摆在广大java开...
    用java开发终端平台上的Application程序, 比使用C++,Delphi等语言更加容易。 java语言似乎天生就适合团队开发。但是,摆在广大java开发者面前的一个难题是,客户端必须安装JRE。真的必须安装JRE吗?其实你可以不装,只要使用Java Runner,无论在哪里,你的程序都可以Run起来。-spent on the terminal platform Application procedures, the use of C, Delphi and other languages easier. Java language seem naturally fit team development. However, the majority of java placed in front of the development of a problem is, the client must be installed JRE. Really must install the JRE? Actually, you can not, only use Java Runner, regardless of where your program can Run up.
    2023-08-25 19:40:03下载
    积分:1
  • 696518资源总数
  • 104591会员总数
  • 57今日下载

热门标签

Visual C++ matlab C/C++ Java Others Unix_Linux EasyLanguage易语言 Visual Basic C# PDF C++ Delphi VHDL ASP WINDOWS
热门下载

Copyright© 2019-2025 | Powered by Imdn | 浙ICP备16007336号 | IMDN交流 | 联系客服(QQ:3324461878)

本网站资源收集自网络及网站用户上传,若有侵权请邮件至(3324461878@qq.com),核实后我们会在24小时内删除,谢谢!