Add to ORKGSystem-level design techniques promise a way to lessen the productivity gap between fabrication and design. Unfortunately, these techniques have been slow to catch on, in part because they do little to help designers optimize hardware. This paper presents a brief summary of three system-level design techniques, Platform-based design, SystemC, and Chip-in-a-day, in order to propose that more system-level abstraction of physical performance is needed to make these techniques more useful. An analysis of design-productivity for three chips designed with the Chip-in-a-Day flow is also presented
The objective of this paper is to demonstrate the benefits of the multi-paradigm design methodology ...
International audienceThe complexity of hardware systems is currently growing faster than the produc...
Integrated circuit technology is rapidly approaching a state where feature sizes of one micron or le...
System-level design techniques promise a way to lessen the productivity gap between fabrication and ...
Abstract—System-level design issues become critical as imple-mentation technology evolves toward inc...
Modern microelectronic technology enables implementation of a complete complex information processin...
This introductory chapter briefly discusses the impacts into chip design and production of integrati...
Abstact:- Modern digital design, having to cope with the increasing device and application complexit...
We introduce two properties of the design process called the arbitrary composability and the linear ...
By shrinking feature sizes, deep-submicron technology is enabling the design of systems with increas...
Inexorable progress in device scaling has given rise to obvious increases in circuit complexit...
Using VLSI technology, it will soon be possible to implement entire computing systems on one monolit...
Using VLSI technology, it will soon be possible to implement entire computing systems on one monolit...
The complexity of systems is currently growing faster than the productivity of system designers and ...
The complexity of hardware designs is still increasing according to Moore’s law. With embedded syste...
The objective of this paper is to demonstrate the benefits of the multi-paradigm design methodology ...
International audienceThe complexity of hardware systems is currently growing faster than the produc...
Integrated circuit technology is rapidly approaching a state where feature sizes of one micron or le...
System-level design techniques promise a way to lessen the productivity gap between fabrication and ...
Abstract—System-level design issues become critical as imple-mentation technology evolves toward inc...
Modern microelectronic technology enables implementation of a complete complex information processin...
This introductory chapter briefly discusses the impacts into chip design and production of integrati...
Abstact:- Modern digital design, having to cope with the increasing device and application complexit...
We introduce two properties of the design process called the arbitrary composability and the linear ...
By shrinking feature sizes, deep-submicron technology is enabling the design of systems with increas...
Inexorable progress in device scaling has given rise to obvious increases in circuit complexit...
Using VLSI technology, it will soon be possible to implement entire computing systems on one monolit...
Using VLSI technology, it will soon be possible to implement entire computing systems on one monolit...
The complexity of systems is currently growing faster than the productivity of system designers and ...
The complexity of hardware designs is still increasing according to Moore’s law. With embedded syste...
The objective of this paper is to demonstrate the benefits of the multi-paradigm design methodology ...
International audienceThe complexity of hardware systems is currently growing faster than the produc...
Integrated circuit technology is rapidly approaching a state where feature sizes of one micron or le...