core cpu的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列懶人包和總整理

The Art of Writing Efficient Programs: An advanced programmer’’s guide to efficient hardware utilization and compiler optimizati

為了解決core cpu的問題，作者Pikus, Fedor G. 這樣論述：

Get to grips with various performance improvement techniques such as concurrency, lock-free programming, atomic operations, parallelism, and memory managementKey Features: Understand the limitations of modern CPUs and their performance impactFind out how you can avoid writing inefficient code and

get the best optimizations from the compilerLearn the tradeoffs and costs of writing high-performance programsBook Description: The great free lunch of ＂performance taking care of itself＂ is over. Until recently, programs got faster by themselves as CPUs were upgraded, but that doesn’t happen anymo

re. The clock frequency of new processors has almost peaked. New architectures provide small improvements to existing programs, but this only helps slightly. Processors do get larger and more powerful, but most of this new power is consumed by the increased number of processing cores and other ＂extr

a＂ computing units. To write efficient software, you now have to know how to program by making good use of the available computing resources, and this book will teach you how to do that.The book covers all the major aspects of writing efficient programs, such as using CPU resources and memory effici

ently, avoiding unnecessary computations, measuring performance, and how to put concurrency and multithreading to good use. You’ll also learn about compiler optimizations and how to use the programming language (C]+) more efficiently. Finally, you’ll understand how design decisions impact performanc

e.By the end of this book, you’ll not only have enough knowledge of processors and compilers to write efficient programs, but you’ll also be able to understand which techniques to use and what to measure while improving performance. At its core, this book is about learning how to learn.What You Will

Learn: Discover how to use the hardware computing resources in your programs effectivelyUnderstand the relationship between memory order and memory barriersFamiliarize yourself with the performance implications of different data structures and organizationsAssess the performance impact of concurren

t memory accessed and how to minimize itDiscover when to use and when not to use lock-free programming techniquesExplore different ways to improve the effectiveness of compiler optimizationsDesign APIs for concurrent data structures and high-performance data structures to avoid inefficienciesWho thi

s book is for: This book is for experienced developers and programmers who work on performance-critical projects and want to learn different techniques to improve the performance of their code. Programmers who belong to algorithmic trading, gaming, bioinformatics, computational genomics, or computat

ional fluid dynamics communities can learn various techniques from this book and apply them in their domain of work.Although this book uses the C++ language, the concepts demonstrated in the book can be easily transferred or applied to other compiled languages such as C, Java, Rust, Go, and more.

core cpu進入發燒排行的影片

超規模分佈式雲端數據中心之 NFV 平行流量感知部署演算法

為了解決core cpu的問題，作者陳萱庭 這樣論述：

Cloud services are burgeoning, the next distributed computing era and the next generation of hyperscale data centers are subverting the past. With the rise of Cloud Computing, Artificial Intelligence, and the Internet of Things, data centers have ushered in the third wave of upsurge. Since Network

Functions Virtualization (NFV) was put forward by ETSI, NFV development has been highly concerned. Recent methods are becoming obsolete for dealing with the lateral flow in DCN, and attentions to lateral flow to date are also scant. In this research, we devise an algorithm, VIV3A, for hyperscale dis

tributed cloud data centers. The novelty of our work lies not only in considering the new paradigm of lateral flow sensing on real topologies but also in demonstrating the hardness of NFVSED optimization by proof.

小學生的程式設計基礎入門：手機如何播影片?電鍋怎麼煮飯?帶孩子從「科技面面觀」，輕鬆培養程式邏輯思維!

為了解決core cpu的問題，作者才望子（Cybozu）股份有限公司,西尾泰和,川合秀實 這樣論述：

　　當微軟公司創辦人比爾．蓋茲、美國總統歐巴馬、臉書創辦人祖克柏都大推「程式設計」學習， 　　當「程式設計」、「演算法」已經列為國中必學科目， 　　現在就帶孩子跟著日本理學博士，進入有趣的程式設計世界！ 　　★因應升國中最新108課綱★ 　　★最適合國小親子共學的「資訊科技」先修教材★ 　　‧什麼是「程式」？「程式」在哪裡？ 　　程式就在電子鍋、手機、電腦……，我們的生活中充滿了「程式」！ 　　‧你知道嗎？透過「程式」，電鍋才會煮飯、手機才會放音樂、播影片！ 　　當你到便利商店買東西時，店員手上的讀碼機裡面也有「程式」喔！ 　　‧你可能也很好奇，那「程式」是怎麼讓這些機器運作的呢？

　　這時候我們就要學習使用「程式的語言」囉！ 　　全彩圖解生活實例，家長與孩子都能秒懂「程式設計」基礎邏輯！ 　　從小接觸電腦程式教育，不僅有助孩子課業上不落人後， 　　更能訓練邏輯思考、培養創意發想力、問題解決力！ 　　AI世代的必備核心能力，現在就開始培養！ 　　◎本書為《進入國中前一定要學的電腦程式先修課》全新封面版。 本書特色 　　◆電腦工程師專為孩子所寫的12堂程式設計學習書！ 　　電鍋煮好飯之後，是怎麼自動把開關切掉的？在超市結帳時，讀碼機怎樣讀取條碼並把價格呈現在收銀機螢幕上？不同電腦之間究竟怎麼彼此相認和對話？手機的「Google Map」是如何知道所在位置呢？──你

知道嗎？這些都是因為有「程式」在運作！本書由日本知名科技公司「才望子」的兩位電腦工程師西尾泰和、川合秀實所撰寫，透過深入淺出的說明，一次搞懂手機、家電、網路到GPS的程式運作基礎！ 　　 　　◆簡易版的「程式設計」實例示範，為程式撰寫打好基礎！ 　　全書每章最後皆附有「程式小教室」，是以日常用語來示範程式語言寫成的程式設計實例，例如：播放影片的手機APP、網路路由器、將文章全形字轉為半形字、網路百科全書等，讓孩子更容易了解程式是怎麼寫成的，並秒懂程式背後的邏輯！只要掌握了程式撰寫的基礎邏輯，不論以後學習哪種程式語言，都能快速上手！ 　　◆符合當代學習趨勢，協助孩子建立AI世代必備的「科技素養

」！ 　　程式語言只會變得越來越重要！台灣在2019年就已經將程式設計、演算法等資訊科技課程列為國中必修課。讀完本書的電腦、程式設計相關知識，不僅能走在當代學習趨勢的前端，也提高孩子在未來職場上的競爭力！ 　　◆易懂用語＋趣味插圖，大人小孩都能無痛閱讀！ 　　本書精心設計生動有趣的角色來和讀者互動，像是為讀者解說電腦知識、由電腦工程師化身成的「專家」，還有生活在電腦裡的神祕生物、接到指示就會快速處理事情的「小幫手」（程式），讓孩子快速進入電腦程式的世界，引發學習動機！本書也非常適合親子共讀，增進爸媽與孩子的感情！ 好評推薦 　　「掌握程式就更有機會在未來競爭中勝出，推薦給孩子和家長共讀。

」──Coding APE猿創力程式設計學校執行長│陳南光 　　「便利生活與電腦軟體密不可分，本書用插畫及淺顯易懂的文字，讓家長及孩子更快了解程式軟體的基礎及生活應用，更容易學會新世代的語言。」──CodePro酷博兒童程式創客教育  

分散式FM-index基因搜尋於基於RISC-V的近DRAM處理之設計研究

為了解決core cpu的問題，作者劉沛宜 這樣論述：

FM-index是一個能很有效精準比對基因序列的資料結構，並且被廣用在各種基因分析的應用上。FM-index資料結構應用在基因分析上很節省空間並且有很低的計算複雜度。然而，因為其資料存取的隨機性和密集度，再加上現今電腦架構CPU和記憶體的速度差距，使得FM-index比對基因序列的計算主要卡在記憶體的存取。近DRAM處理(NDP)是解決記憶體存取瓶頸的趨勢。我們在這篇研究提出兩種分散式FM-index基因搜尋，包含完整的資料劃分、計算分散和中央管理方法，以將計算分散到整個平行計算NDP架構上。另外，在我們NDP架構中，我們使用多個RISC-V 運算核心搭配coprocessors作為處理單元

以提供切換計算和參數的彈性和針對FM-index重複的運算加速。與直接在CPU上用軟體計算相比，我們提出的兩種FM-index基因搜尋分散方法在我們的平行NDP系統上分別達到了2.66倍和6.39倍的加速。此外，我們有完整的比較了兩種分散式方法的效能表現不同以及各自最佳的使用場景，也呈現兩種不同硬體複雜度coprocessor設計的速度表現和影響。