Topics
integrated circuitPerson function
Wireless networks-on-chips (WINoCs) hold substantial promise for enhancing multicore integrated circuit performance, by augmenting conventional wired interconnects. As the number of cores per IC grows, intercore communication requirements will also grow, and WINoCs can be used to both save power and reduce latency. In this article, we briefly describe some of the key challenges with WINoC implementation, and also describe our example design, iWISE, which is a scalable wireless interconnect design. We show that the integration of wireless interconnects with wired interconnects in NoCs can reduce overall network power by 34 percent while achieving a speedup of 2.54 on real applications
AbstractModern embedded SoC design uses a rapidly increasing number of processing units for ubiquito...
To alleviate the complex communication problems arising in the network-on-chip (NoC) architectures a...
The massive levels of integration following Moore\u27s Law making modern multi-core chips prevail in...
Wireless networks-on-chips (WINoCs) hold substantial promise for enhancing multicore integrated circ...
Abstract — Multi-core platforms are emerging trends in the design of Systems-on-Chip (SoCs). Interco...
With the rise of chip multiprocessors, an energy-efficient communication fabric is required to satis...
Abstract—Current commercial systems-on-chips (SoCs) designs integrate an increasingly large number o...
The performance benefits of conventional Network-on-Chip (NoC) architectures are limited by the high...
Abstract: Modern systems-on-chip (SoCs) today contain hundreds of cores, and this number is predicte...
The advent of integrated circuit (chip) multiprocessors (CMPs) combined with the continuous reductio...
The advent of integrated circuit (chip) multiprocessors (CMPs) combined with the continuous reductio...
The design of system-on-chip (SoC) requires the complex integration between a multi-number of cores ...
Modern embedded SoC design uses a rapidly increasing number of processing units for ubiquitous compu...
AbstractModern embedded SoC design uses a rapidly increasing number of processing units for ubiquito...
The massive levels of integration following Moore\u27s Law making modern multi-core chips prevail in...
AbstractModern embedded SoC design uses a rapidly increasing number of processing units for ubiquito...
To alleviate the complex communication problems arising in the network-on-chip (NoC) architectures a...
The massive levels of integration following Moore\u27s Law making modern multi-core chips prevail in...
Wireless networks-on-chips (WINoCs) hold substantial promise for enhancing multicore integrated circ...
Abstract — Multi-core platforms are emerging trends in the design of Systems-on-Chip (SoCs). Interco...
With the rise of chip multiprocessors, an energy-efficient communication fabric is required to satis...
Abstract—Current commercial systems-on-chips (SoCs) designs integrate an increasingly large number o...
The performance benefits of conventional Network-on-Chip (NoC) architectures are limited by the high...
Abstract: Modern systems-on-chip (SoCs) today contain hundreds of cores, and this number is predicte...
The advent of integrated circuit (chip) multiprocessors (CMPs) combined with the continuous reductio...
The advent of integrated circuit (chip) multiprocessors (CMPs) combined with the continuous reductio...
The design of system-on-chip (SoC) requires the complex integration between a multi-number of cores ...
Modern embedded SoC design uses a rapidly increasing number of processing units for ubiquitous compu...
AbstractModern embedded SoC design uses a rapidly increasing number of processing units for ubiquito...
The massive levels of integration following Moore\u27s Law making modern multi-core chips prevail in...
AbstractModern embedded SoC design uses a rapidly increasing number of processing units for ubiquito...
To alleviate the complex communication problems arising in the network-on-chip (NoC) architectures a...
The massive levels of integration following Moore\u27s Law making modern multi-core chips prevail in...
Add to ORKG