# Processsor relevant article collection **Repository Path**: zenny-chen/processsor-relevant-article-collection ## Basic Information - **Project Name**: Processsor relevant article collection - **Description**: 处理器相关文集 - **Primary Language**: Unknown - **License**: GPL-3.0 - **Default Branch**: master - **Homepage**: None - **GVP Project**: No ## Statistics - **Stars**: 0 - **Forks**: 0 - **Created**: 2020-08-30 - **Last Updated**: 2022-05-18 ## Categories & Tags **Categories**: Uncategorized **Tags**: None ## README # Processsor relevant article collection 处理器相关文集
## 关于各种处理器的高性能计算与嵌入式系统相关资料 - [一文读懂APU/BPU/CPU/DPU/EPU/FPU/GPU等处理器](http://www.eefocus.com/mcu-dsp/391017) - [多核 CPU 和多个 CPU 有何区别？](https://www.toutiao.com/a6700442139270054408/) - [CPU、GPU、FPGA、ASIC芯片的对比](https://www.toutiao.com/i6658175328411714061/) - [DSA AI芯片，相对于GPGPU，究竟有多大的能效优势？主要是从哪些方面提高了能效？](https://zhuanlan.zhihu.com/p/457265026) - [深度解读苹果M1芯片](https://mp.weixin.qq.com/s?__biz=MzU3OTA0MjQ3Mg==&mid=2247561050&idx=2&sn=cd5ce38b449822ede737a136542bdbe9&chksm=fd6f829dca180b8bdf0843891b7e8338b2c4b2941e4b5bdce2ea123cb78596a0aa24fa120b6e&mpshare=1&scene=23&srcid=1112ursAcFSna40jHmrARyXl&sharer_sharetime=1605179186369&sharer_shareid=35ac76bf9ad4a719bab0994dd606caf6#rd) - [Apple M1 Max功耗分析与探讨](https://mp.weixin.qq.com/s?__biz=MzUyMTg4NzUwMA==&mid=2247483675&idx=1&sn=5861ba23437b81e97a05863276c72a05&chksm=f9d50b78cea2826e5309d4d470ff0aac77f242c67d461268c7321dcad1fa240991dbdf0fc0a9&mpshare=1&scene=23&srcid=1230XcwuF8VM3XJEH47clQsz&sharer_sharetime=1640843101029&sharer_shareid=35ac76bf9ad4a719bab0994dd606caf6#rd) - [将Linux移植到M1 Mac真的太难了](https://csdnnews.blog.csdn.net/article/details/115364836) - [一篇详解ARM Cortex-A9处理器相关介绍](https://www.toutiao.com/article/7098955814320587300/) - [X86，你了解多少？](https://www.toutiao.com/i6946365448938127904/) - [一则轶事：对更快的系统调用陷阱的追求](https://www.toutiao.com/i7056937402165674507/) - [What is Intel Thread Director?](https://techedged.com/intel-thread-director/) - [Google深度揭秘TPU：一文看懂原理，以及为何碾压GPU](https://www.toutiao.com/i6419483969682670081/) - [性能之殇：从冯·诺依曼瓶颈谈起](https://zhuanlan.zhihu.com/p/52721155) - [面试官问：高并发下，你都怎么选择最优的线程数？](https://www.toutiao.com/a6829183334719947277/) - [彻底搞懂 IO 底层原理](https://www.toutiao.com/i6901537900752585228/) - [CPU怎么保证内存访问冲突？一致性？](https://www.toutiao.com/a6748042646326870541/) - [访问任意数组元素的性能相同？抛开Cache谈性能就是耍流氓](https://www.toutiao.com/a6821051726448034315/) - [阿里P8说要搞懂volatile 关键字，就靠这 26 张图](https://www.toutiao.com/i6898303659269145102/) - [linux下C++多线程并发之原子操作与无锁编程](https://www.toutiao.com/i6839967822085358092/) - [如何利用CAS技术实现无锁队列](https://www.toutiao.com/i6939798423780508174/) - [并发原理系列二：浅论Lock 与X86 Cache 一致性](https://www.toutiao.com/a6815374276636443148/) - [计算机的Cache和Memory访问时Write-back，Write-through及write allocate的区别](https://www.cnblogs.com/guojingdeyuan/p/7626983.html) - [Understanding write-through, write-around and write-back caching (with Python)](https://shahriar.svbtle.com/Understanding-writethrough-writearound-and-writeback-caching-with-python) - [Emulating x86 AES Intrinsics on ARMv8-A](https://blog.michaelbrase.com/2018/05/08/emulating-x86-aes-intrinsics-on-armv8-a/) - [ARMv8替换x86 crc32汇编指令](https://support.huaweicloud.com/codeprtr-kunpenggrf/kunpengtaishanporting_12_0029.html) - [圖解RAM結構與原理，系統記憶體的Channel、Chip與Bank](https://www.techbang.com/posts/18381-from-the-channel-to-address-computer-main-memory-structures-to-understand?fbclid=IwAR0yj1dCTZmi0FpYLDV6BfwEj11iVtLMtIHq1bdep7CtH9V6YzFhliU6tK4) - [1.3：从芯片说起~自己动手做RAM](https://www.toutiao.com/i7049233754413400579/) - [1.4：从芯片说起~自己动手做ALU](https://www.toutiao.com/i7050281617067147806/) - [1.5：从芯片说起~自己设计指令](https://www.toutiao.com/i7051383108465181215/) - [1.6：从芯片说起~完成你的第一个芯片](https://www.toutiao.com/i7051454906619937294/) - [内存是怎么映射到物理地址空间的？内存是连续分布的吗？](https://www.toutiao.com/a6699406470699549195/) - [现代存储非常快，但是API很糟糕](https://www.toutiao.com/i6899573862590054926/) - [Microsoft NUMA Support](https://docs.microsoft.com/en-us/windows/win32/procthread/numa-support) - [AMD Rome – is it for real? Architecture and initial HPC performance](https://www.dell.com/support/article/zh-cn/sln319015/amd-rome-is-it-for-real-architecture-and-initial-hpc-performance) - [线程模型Reactor/Proactor的区别](https://www.toutiao.com/i6902028903288717835/) - [GPFS并行文件系统原理解析](https://www.toutiao.com/i6902319855127609867/) - [最全总结！嵌入式系统知识和接口技术](https://www.toutiao.com/i6751313894649643533/) - [嵌入式开发中那些需要了解的硬件](https://www.toutiao.com/i6729372412858597902/) - [Arm Cortex-M低功耗模式基础](https://www.toutiao.com/a6690433824859357709) - [CPU硬件辅助虚拟化技术](https://www.toutiao.com/i6768263764224508428/) - [用Verilog实现流水移位寄存器，请尽量不要使用“阻塞赋值”](https://www.toutiao.com/a6746164678080086531/) - [英特尔漏洞门原理解析，保护模式是如何失效的？](https://www.toutiao.com/i6509335383929520648/) - [走进栈溢出](https://blog.csdn.net/weixin_41185953/article/details/104855669) - [初探ROP](https://blog.csdn.net/weixin_41185953/article/details/104901494) - [再探ROP(上)](https://blog.csdn.net/weixin_41185953/article/details/105364797) - [初探利用angr进行漏洞挖掘（上）](https://www.toutiao.com/a6800737709552828942/) - [一个基于汇编的中心重定向框架](https://mp.weixin.qq.com/s?__biz=MzA5NzMwODI0MA==&mid=2647766644&idx=1&sn=134c8defba961c7573595bf7b2161bc6&chksm=8887cd4bbff0445d24f3ba2d8487611b3f43f2f6c1990d21ed79d5de5645891291e8805aae25&mpshare=1&scene=23&srcid&sharer_sharetime=1589431751498&sharer_shareid=35ac76bf9ad4a719bab0994dd606caf6%23rd) - [剖析内存中的程序之秘](https://www.toutiao.com/i6513516605794681347/) - [NVMe探索](https://www.toutiao.com/a6869199858436145668/) - [DirectStorage is coming to PC](https://devblogs.microsoft.com/directx/directstorage-is-coming-to-pc/) - [掌握SPI和I2C总线协议心得，调试起来果然方便多了......](https://www.toutiao.com/a6762391966253613582/) - [AMBA_AXI总线详解](https://www.toutiao.com/i7048938792522105380/) - [正确理解 Thunderbolt 3 带宽与协议拓扑](https://www.toutiao.com/a6819563018888675854/) - [基于忆阻器的存算一体单芯片算力可能高达1POPs](https://www.leiphone.com/news/202008/SHclogrCqLGhkaWb.html) - [从一辆小车开始你的机器人爱好之旅（上）](https://www.toutiao.com/a6818401220323967500/) - [英特尔®以太网控制器E810介绍：面向5G核心网络](https://www.toutiao.com/a6870508665388925444/)
## RISC-V相关资料 - [RISC-V并不完美？](https://www.toutiao.com/i6903448502840459779/) - [浅谈RISC-V指令集的基本指令格式和立即数操作](https://www.toutiao.com/i6731643373674824204/?group_id=6731643373674824204) - [浅谈RISC-V指令集（二）- 整数计算指令](https://www.toutiao.com/i6734682667268178435/) - [RISC-V中的条件分支指令详解](https://www.toutiao.com/a6736736394133111304/) - [RISC-V Assembly Programmer's Manual](https://github.com/riscv/riscv-asm-manual/blob/master/riscv-asm.md) - [我们一起学RISC-V](https://www.toutiao.com/a6904432642612167172/) - [我们一起学RISC-V——01-了解处理器和寄存器](https://www.toutiao.com/a6904491425560281604/) - [我们一起学RISC-V——02-深入了解机器模式下的CSR](https://www.toutiao.com/a6905393723081867780/) - [我们一起学RISC-V——03-特权指令，Reset和NMI](https://www.toutiao.com/a6905768922071564804/)
## ARM处理器相关资料 - [ARMv8 - ARM](https://en.wikichip.org/wiki/arm/armv8) - [arm/armv8.1](https://en.wikichip.org/wiki/arm/armv8.1) - [Memory tagging extension (MTE, MemTag, ARMv8.5-MemTag)](https://en.wikichip.org/wiki/arm/mte) - [Bringing Armv8.2 Instructions to Android Runtime](https://community.arm.com/developer/tools-software/oss-platforms/b/android-blog/posts/bringing-armv8-2-instructions-to-android-runtime) - [ARM ISA Intrinsics](https://developer.arm.com/architectures/instruction-sets/intrinsics/)
## 各个处理器架构ISA编程指南 - [Intel® 64 and IA-32 Architectures Software Developer Manuals](https://software.intel.com/en-us/articles/intel-sdm) - [Intel® Threading Building Blocks Developer Guide](https://software.intel.com/en-us/tbb-user-guide) - [Intel® oneAPI Toolkits](https://software.intel.com/content/www/us/en/develop/tools/oneapi.html) - [AMD Developer Guides, Manuals & ISA Documents](https://developer.amd.com/resources/developer-guides-manuals/) - [Intel BMI1](https://www.chessprogramming.org/BMI1) - [MIPS Open™ Architecture](https://www.mipsopen.com/components-category/mips-open-architecture/) - [Arm CPU Architecture](https://developer.arm.com/architectures/cpu-architecture) - [RISC-V Specifications](https://riscv.org/specifications/) - [arm KEIL 8051 Instruction Set Manual](http://www.keil.com/support/man/docs/is51/) - [C8051F Series](https://www.silabs.com/support/resources.ct-data-sheets.ct-manuals.page=3) - [HiFi 2 Audio Engine Instruction Set Architecture Reference Manua](https://wenku.baidu.com/view/3a9e44c3d5bbfd0a7956735c.html) - [Cadence HiFi 3 DSP User Manual Page](https://www.manualslib.com/manual/1484529/Cadence-Hifi-3-Dsp.html)