Computer System Design System-on-Chip下载

weixin_39822095 2023-06-06 18:30:17

片上计算机系统设计系统 The next generation of computer system designers will be less concerned about details of processors and memories, and more concerned about the elements of a system tailored to particular applications. These designers will have a fundamental knowledge of processors and other elements in the system, but the success of their design will depend on the skills in making system-level tradeoffs that optimize the cost, performance and other attributes to meet application requirements. This book provides a new treatment of computer system design, particularly for System-on-Chip (SOC), which addresses the issues mentioned above. It begins with a global introduction, from the high-level view to the lowest common denominator (the chip itself), then moves on to the three main building blocks of an SOC (processor, memory, and interconnect). Next is an overview of what makes SOC unique (its customization ability and the applications that drive it). The final chapter presents future challenges for system design and SOC possibilities. , 相关下载链接：https://download.csdn.net/download/yadun123/10635935?utm_source=bbsseo

...全文

2 回复打赏收藏转发到动态举报

写回复

回复

切换为时间正序

请发表友善的回复…

发表回复

片上计算机系统设计系统 The next generation of computer system designers will be less concerned about details of processors and memories, and more concerned about the elements of a system tailored to particular applications. These designers will have a fundamental knowledge of processors and other elements in the system, but the success of their design will depend on the skills in making system-level tradeoffs that optimize the cost, performance and other attributes to meet application requirements. This book provides a new treatment of computer system design, particularly for System-on-Chip (SOC), which addresses the issues mentioned above. It begins with a global introduction, from the high-level view to the lowest common denominator (the chip itself), then moves on to the three main building blocks of an SOC (processor, memory, and interconnect). Next is an overview of what makes SOC unique (its customization ability and the applications that drive it). The final chapter presents future challenges for system design and SOC possibilities.

• Course Management • Introduction to SoC • SoC Applications • On-Chip Interconnections • Bus-based and NoC based SoC Interconnects

来自MIT大佬Natalie Enright Jerger、Tushar Krishna、以及Li-Shiuan Peh总结的体系结构片上网络（onchip network）的学习材料（目前主要用于MIT相关课程教学）。英文摘要：This book targets engineers and researchers familiar with basic computer architecture concepts who are interested in learning about on-chip networks. This work is designed to be a short synthesis of the most critical concepts in on-chip network design. It is a resource for both understanding on-chip network basics and for providing an overview of state of-the-art research in on-chip networks. We believe that an overview that teaches both fundamental concepts and highlights state-of-the-art designs will be of great value to both graduate students and industry engineers. While not an exhaustive text, we hope to illuminate fundamental concepts for the reader as well as identify trends and gaps in on-chip network research. With the rapid advances in this field, we felt it was timely to update and review the state of the art in this second edition. We introduce two new chapters at the end of the book. We have updated the latest research of the past years throughout the book and also expanded our coverage of fundamental concepts to include several research ideas that have now made their way into products and, in our opinion, should be textbook concepts that all on-chip network practitioners should know. For example, these fundamental concepts include message passing, multicast routing, and bubble flow control schemes. Table of Contents: Preface / Acknowledgments / Introduction / Interface with System Architecture / Topology / Routing / Flow Control / Router Microarchitecture / Modeling and Evaluation / Case Studies / Conclusions / References / Authors' Biographies 是学习NOC等领域的非常好的材料。

We introduce the emerging applications for ultra low power devices in this chapter. Moore’s law continues to drive function integration. The transistor density is defined as the transistor number on one square silicon die that is generally considered the largest manufacturable die. Such a die can now hold over 7 billion transistors. It is about the same as the population of the planet. But whether those transistors are active or not, they consume power. To satisfy Moore’s law, die size has been increasing at the rate of 7 % per year. The operating frequency has doubled every two years. Therefore to meet the performance goal, the supply voltage scales by only ~ 15 % every two years, rather than the theoretical 30 %. Reduction in power consumption is not tracking Moore’s Law. Additionally, at smaller geometries the cost of the fabrication is growing substantially, which affects wafer pricing. Hence both power reduction and cost reduction are not tracking Moore’s Law. This inspires creative thinking and promotes research and development in low power circuits and architecture. So that raises some interesting challenges about power, cost, and performance that need innovative solutions. System-on-chip (SoC) has become a reality since increasing complexity is driving new business models. SoC usually integrates all components of a computer or other electronic system into a single chip. The key electronic chip we focus on is a “system-on-chip”, which is a must for most modern sophisticated devices. It is critical for chip designers to work directly with system designers or customers in product definition in order to meet the design requirements for power, cost, and performance

Computer System Design System on Chip

下载资源悬赏专区

13,655

社区成员

12,655,512

社区内容

发帖

与我相关

我的任务

其他技术论坛（原bbs）

社区管理员

加入社区

近7日
近30日
至今

加载中

查看更多榜单

社区公告

暂无公告

试试用AI创作助手写篇文章吧

+ 用AI写文章