Preroute tool set improves cell-based chip performance

Jim Lipman

首页> 外文期刊>Electrical Design News >Preroute tool set improves cell-based chip performance

【24h】

Preroute tool set improves cell-based chip performance

机译：预布线工具集提高了基于单元的芯片性能

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Designed to fit between gate-level synthesis and chip routing, Sapphire's new FormIT, NoiseIT, and PowerIT tools improve your chip's timing characteristics, signal integrity, and power dissipation, respectively. The tool suite does simultaneous performance analysis, block placement, and design optimization to help reduce time-consuming synthesis/routing iterations.

机译：Sapphire的新型FormIT，NoiseIT和PowerIT工具旨在适合门级综合和芯片布线，分别改善了芯片的时序特性，信号完整性和功耗。该工具套件可同时进行性能分析，块放置和设计优化，以帮助减少耗时的综合/布线迭代。

著录项

来源
《Electrical Design News》 |1999年第8期|p.20|共1页
作者
Jim Lipman;
展开▼
作者单位

展开▼
收录信息美国《科学引文索引》(SCI);
原文格式 PDF
正文语种 eng
中图分类一般性问题;
关键词

相似文献

外文文献
中文文献
专利

1. Bugslayer: Improving Runtime Performance with the Smooth Working Set Tool [J] . JOHN ROBBINS MSDN Magazine . 2000,第10期

机译：Bugslayer：使用“平滑工作集”工具提高运行时性能
2. Bugslayer: Improving Runtime Performance with the Smooth Working Set Tool—Part 2 [J] . JOHN ROBBINS MSDN Magazine . 2000,第12期

机译：Bugslayer：使用“平滑工作设置”工具提高运行时性能-第2部分
3. Development of a high-performance chip-guiding turning process-tool design and chip flow control [J] . Aoki Tomoya, Sencer Burak, Shamoto Eiji, The International Journal of Advanced Manufacturing Technology . 2016,第1a4期

机译：高性能切屑导向车削加工工具设计和切屑流控制的开发
4. Improved performance of new fast recovery high voltage diode chip set of 3.3kV and 6.5kV [C] . Ariful Islam, Lee Coulbeck, Daohui Li, European Conference on Power Electronics and Applications . 2018

机译：新型3.3kV和6.5kV快速恢复高压二极管芯片组的性能改进
5. Design of Wireless Network-on-Chip for Improving Communication Performance of Many-Core System-on-Chips. [D] . Wang, Yi. 2011

机译：用于改善多核芯片系统通信性能的无线片上网络设计。
6. Improving the frying performance of RBD palm olein oil using NaturFORT™ TRLG 101 liquid as on-top of TBHQ in deep-fat frying of potato chips [O] . Vishal Trivedi, Y. Nivetha, P. Y. Edwin Chow 2017

机译：使用NaturFORT™TRLG 101液体作为TBHQ的顶部在薯片的深油炸中提高RBD棕榈油精的油炸性能
7. Figure 4: (A) One conserved sequence, which occurs 79 times in 46,264 binding site peaks from the ChIP-seq data-set. The mutation profile of this conserved sequence is illustrated, where ’_ ’ indicates this base is unchanged; DEL indicates this base is lost; INS X indicates a new base X is inserted in front of this base. (B) Several repeated elements patterns are listed. (C) In the first column, the top five DNA motifs, mined by meme-chip tools (Machanick Bailey, 2011) are illustrated. The resemblant conserved sequences, found by the CFSP algorithm are listed in the second column. In the third column, the position-specific scoring matrices, which are transformed from mutational information are listed. The similarity between meme motif and resemblant conserved sequence with PSSM format was calculated via a stamp motif comparison tool (Mahony Benos, 2007). The E-values for the similarity of those pairs is displayed in the fourth column. (D) One motif is selected in each group clustered by gkmsvm descriptors, and the corresponding motif found by the CFSP algorithm is listed below. (E) There are additional datasets (File No: ENCFF100GRL, ENCFF616IRT, ENCFF870CER, Target: SREBF1) collected from https://www.encodeproject.org. The top two motifs are selected in each file using meme tools, and the corresponding motifs found by our algorithm are listed below. [O] . -1

机译：图4：（a）一种保守序列，其发生在芯片-SEQ数据集中的46,264个结合位点峰值中的79倍。说明了这种保守序列的突变分布，其中'_'表示该碱度不变; del表示此基础丢失; INS X表示新的基础X插入此基础前面。（b）列出了几种重复的元素模式。（c）在第一栏中，示出了由MEME芯片工具（Machanick＆Bailey，2011）开采的前五个DNA主题。由CFSP算法发现的相应保守序列列于第二列中。在第三列中，列出了从突变信息转换的特定位置的评分矩阵。 MEME主题与PSSM格式的相似性与PSSM格式之间的相似性通过邮票图章比较工具（Mahony＆Benos，2007）计算。这些对相似性的电子值显示在第四列中。（d）在由GKMSVM描述符聚集的每个组中选择了一个图案，下面列出了CFSP算法的相应主题。（e）从https://www.encodeproject.org收集的，有附加数据集（文件no：cernff100grl，cenf616irl，conf8.20cer，target：srebf1）。使用MEME工具在每个文件中选择前两个图案，并且我们的算法发现的相应主题如下所示。

Preroute tool set improves cell-based chip performance

摘要

著录项

相似文献

相关主题

期刊订阅