Getting to the bottom of deep submicron
Proceedings of the 1998 IEEE/ACM international conference on Computer-aided design
Fourteen Ways to Fool Your Synchronizer
ASYNC '03 Proceedings of the 9th International Symposium on Asynchronous Circuits and Systems
Globally-asynchronous locally-synchronous systems (performance, reliability, digital)
Globally-asynchronous locally-synchronous systems (performance, reliability, digital)
Request-Driven GALS Technique for Wireless Communication System
ASYNC '05 Proceedings of the 11th IEEE International Symposium on Asynchronous Circuits and Systems
A VHDL-based design methodology for asynchronous circuits
WSEAS Transactions on Circuits and Systems
The design of a simple asynchronous processor
MMACTEE'10 Proceedings of the 12th WSEAS international conference on Mathematical methods and computational techniques in electrical engineering
The design of sharing resources for asynchronous systems
MMACTEE'10 Proceedings of the 12th WSEAS international conference on Mathematical methods and computational techniques in electrical engineering
An evaluation for the design of asynchronous systems
WSEAS Transactions on Circuits and Systems
An optimization for the design of a simple asynchronous processor
WSEAS Transactions on Computers
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In this paper, we introduce an efficient design flow for Globally Asynchronous Locally Synchronous systems, which can be used by designers without prior knowledge of asynchronous circuits. The design flow starts with a high-level description model of the system in Simulink and ends with a hardware implementation in an FPGA or a standard-cell ASIC. We have developed a tool in MATLAB, so that the designer easily can include asynchronous logic in a conventional synchronous design flow. The proposed design flow is currently used for implementing the physical layer for a wireless LAN.