Add to ORKGIn shared-memory multiprocessing, fine-grain synchronization is challenging because it requires frequent communication. As technology scaling delivers larger manycore chips, such pattern is expected to remain costly to support.; In this paper, we propose to address this challenge by using on-chip wireless communication. Each core has a transceiver and an antenna to communicate with all the other cores. This environment supports very low latency global communication. Our architecture, called WiSync, uses a per-core Broadcast Memory (BM). When a core writes to its BM, all the other 100+ BMs get updated in less than 10 processor cycles. We also use a second wireless channel with cheaper transfers to execute barriers efficiently. WiSync support...
© 2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Wireless networks-on-chips (WINoCs) hold substantial promise for enhancing multicore integrated circ...
Modern embedded SoC design uses a rapidly increasing number of processing units for ubiquitous compu...
In shared-memory multiprocessing, fine-grain synchronization is challenging because it requires freq...
Recent computer architecture trends herald the arrival of massive multiprocessors with more than a h...
Data access patterns that involve fine-grained sharing, multicasts, or reductions have proved to be ...
Broadcast traditionally has been regarded as a prohibitive communication transaction in multiprocess...
International audienceEfficient synchronization is one of the basic requirements of effective parall...
International audienceParallel computing is essential to achieve the manycore architecture performan...
With the rise of chip multiprocessors, an energy-efficient communication fabric is required to satis...
The recently-proposed AirSync and JMB systems allow spatially-separated transmitting radios to form ...
The cost of broadcast has been constraining the design of manycore processors and of the algorithms ...
Abstract: Modern systems-on-chip (SoCs) today contain hundreds of cores, and this number is predicte...
As the core count in shared-memory manycores keeps increasing, it is becoming increasingly harder to...
Next generation multi-media broadcast standards use encoded high-bandwidth streams of data to effici...
© 2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Wireless networks-on-chips (WINoCs) hold substantial promise for enhancing multicore integrated circ...
Modern embedded SoC design uses a rapidly increasing number of processing units for ubiquitous compu...
In shared-memory multiprocessing, fine-grain synchronization is challenging because it requires freq...
Recent computer architecture trends herald the arrival of massive multiprocessors with more than a h...
Data access patterns that involve fine-grained sharing, multicasts, or reductions have proved to be ...
Broadcast traditionally has been regarded as a prohibitive communication transaction in multiprocess...
International audienceEfficient synchronization is one of the basic requirements of effective parall...
International audienceParallel computing is essential to achieve the manycore architecture performan...
With the rise of chip multiprocessors, an energy-efficient communication fabric is required to satis...
The recently-proposed AirSync and JMB systems allow spatially-separated transmitting radios to form ...
The cost of broadcast has been constraining the design of manycore processors and of the algorithms ...
Abstract: Modern systems-on-chip (SoCs) today contain hundreds of cores, and this number is predicte...
As the core count in shared-memory manycores keeps increasing, it is becoming increasingly harder to...
Next generation multi-media broadcast standards use encoded high-bandwidth streams of data to effici...
© 2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Wireless networks-on-chips (WINoCs) hold substantial promise for enhancing multicore integrated circ...
Modern embedded SoC design uses a rapidly increasing number of processing units for ubiquitous compu...