There is today little doubt on the fact that a high-performance and cost-effective Network-on-Chip can only be designed in 45nm and beyond under a relaxed synchronization assumption. In this direction, this paper focuses on a GALS system where the NoC and its end-nodes have independent clocks (unrelated in frequency and phase) and are synchronized via dual-clock FIFOs at network interfaces. Within the network, we assume mesochronous synchronization implemented with hierarchical clock tree distribution. This paper contributes two essential components of any practical design automation support for network instantiation in the target system. On one hand, it introduces a switch design which greatly reduces the overhead for mesochronous synchron...
Clock distribution is an important issue when designing Multiprocessor Systems on Chip on deep-submi...
Download Citation Email Print Request Permissions Save to Project Asynchronous netw...
International audienceThis paper proposes a new approach dealing with the tedious problem of NoC gua...
There is today little doubt on the fact that a high-performance and cost-effective Network-on-Chip c...
There is today little doubt on the fact that a high-performance and cost-effective Network-on-Chip c...
This paper contributes to the maturity of the GALS NoC design practice by advocating for tight integ...
MPSoCs are today frequently designed as the composition of multiple voltage/frequency islands, thus ...
With the advent of Networks-on-Chip (NoCs), the interest for mesochronous synchronizers is again on...
With the advent of Networks-on-Chip (NoCs), the interest for mesochronous synchronizers is again on ...
The NETWORK-ON-CHIP (NOC) interconnection paradigm has been gaining momentum thanks to its flexibili...
ISBN :978-0-387-73660-0This paper presents an innovating methodology for fast and easy design of Asy...
ISBN: 0-7298-0610-3This paper presents an innovating methodology for fast and easy design of Asynchr...
International audienceNetworks on chips constitute a new design paradigm for communication infrastru...
Abstract: Various kinds of asynchronous interconnect and synchronisation mechanisms are being propos...
ISBN :978-0-387-73660-0This paper presents an innovating methodology for fast and easy design of Asy...
Clock distribution is an important issue when designing Multiprocessor Systems on Chip on deep-submi...
Download Citation Email Print Request Permissions Save to Project Asynchronous netw...
International audienceThis paper proposes a new approach dealing with the tedious problem of NoC gua...
There is today little doubt on the fact that a high-performance and cost-effective Network-on-Chip c...
There is today little doubt on the fact that a high-performance and cost-effective Network-on-Chip c...
This paper contributes to the maturity of the GALS NoC design practice by advocating for tight integ...
MPSoCs are today frequently designed as the composition of multiple voltage/frequency islands, thus ...
With the advent of Networks-on-Chip (NoCs), the interest for mesochronous synchronizers is again on...
With the advent of Networks-on-Chip (NoCs), the interest for mesochronous synchronizers is again on ...
The NETWORK-ON-CHIP (NOC) interconnection paradigm has been gaining momentum thanks to its flexibili...
ISBN :978-0-387-73660-0This paper presents an innovating methodology for fast and easy design of Asy...
ISBN: 0-7298-0610-3This paper presents an innovating methodology for fast and easy design of Asynchr...
International audienceNetworks on chips constitute a new design paradigm for communication infrastru...
Abstract: Various kinds of asynchronous interconnect and synchronisation mechanisms are being propos...
ISBN :978-0-387-73660-0This paper presents an innovating methodology for fast and easy design of Asy...
Clock distribution is an important issue when designing Multiprocessor Systems on Chip on deep-submi...
Download Citation Email Print Request Permissions Save to Project Asynchronous netw...
International audienceThis paper proposes a new approach dealing with the tedious problem of NoC gua...