Y90-62009-233 0004843TMS320C80多媒体视频处理机(MVP)上的快速样机设计实例=An example of rapid prototyping on theTMS320C80 multimedia video processor(MVP)[会,英]/Tréméac,Y.G.& Inggs,M.R.//Proceedings ofthe ...Y90-62009-233 0004843TMS320C80多媒体视频处理机(MVP)上的快速样机设计实例=An example of rapid prototyping on theTMS320C80 multimedia video processor(MVP)[会,英]/Tréméac,Y.G.& Inggs,M.R.//Proceedings ofthe 1998 South African Symposium on Communicationsand Signal Processing(COMSIG’98).—233~236(PC)介绍了合成孔径雷达用的数字滤波器的快速原型设计。该滤波器系在 TMS320C80多媒体视频处理机(MVP)数字信号处理机上实现。展开更多
Synthetic biology is an interdisciplinary field that takes top-down approaches to understand and engineer biological systems through design-build-test cycles. A number of advances in this relatively young field have g...Synthetic biology is an interdisciplinary field that takes top-down approaches to understand and engineer biological systems through design-build-test cycles. A number of advances in this relatively young field have greatly accelerated such engineering cycles. Specifically, various innovative tools were developed for in silico biosystems design, DNA de novo synthesis and assembly, construct verification, as well as metabolite analysis, which have laid a solid foundation for building biological foundries for rapid prototyping of improved or novel biosystems. This review summarizes the state-of-the-art technologies for synthetic biology and discusses the challenges to establish such biological foundries.展开更多
文摘Y90-62009-233 0004843TMS320C80多媒体视频处理机(MVP)上的快速样机设计实例=An example of rapid prototyping on theTMS320C80 multimedia video processor(MVP)[会,英]/Tréméac,Y.G.& Inggs,M.R.//Proceedings ofthe 1998 South African Symposium on Communicationsand Signal Processing(COMSIG’98).—233~236(PC)介绍了合成孔径雷达用的数字滤波器的快速原型设计。该滤波器系在 TMS320C80多媒体视频处理机(MVP)数字信号处理机上实现。
基金the National Institutes of Health(GM077596)the National Academies Keck Futures Initiative on Synthetic Biology,Defense Advanced Research Program Agency,Roy J.Carver Charitable TrustInstitute for Genomic Biology at the University of Illinois at Urbana-Champaign for financial support in our development and application of DNA assembly technologies
文摘Synthetic biology is an interdisciplinary field that takes top-down approaches to understand and engineer biological systems through design-build-test cycles. A number of advances in this relatively young field have greatly accelerated such engineering cycles. Specifically, various innovative tools were developed for in silico biosystems design, DNA de novo synthesis and assembly, construct verification, as well as metabolite analysis, which have laid a solid foundation for building biological foundries for rapid prototyping of improved or novel biosystems. This review summarizes the state-of-the-art technologies for synthetic biology and discusses the challenges to establish such biological foundries.