This paper presents a model for analyzing the reliability of a clockless wave pipeline as an intellectual property (IP) core for embedded design. This design requires different clocking requirements by each embedded IP core during integration. Therefore, either partial or global lack of synchronization of the embedded clocking is considered for the data flow. The clockless wave pipeline represents an alternative to a traditional pipeline scheme; it requires an innovative computing model that is readily suitable for high-throughput computing by heterogeneous IP logic cores embedded in system-on-chip (SoC). A clockless wave pipeline technique relies on local asynchronous operation for seamless integration of a combinational core into an SoC. ...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...
Most microelectronic chips used today--in systems ranging from cell phones to desktop computers to s...
Journal ArticleParameterized first-order models for throughput, energy, and bandwidth are presented...
Abstract—This paper presents a model for analyzing the re-liability of a clockless wave pipeline as ...
Scope and Method of Study: Wave pipeline is one of the revolutionary technologies beyond conventiona...
Journal ArticleThis paper describes a new technique for integrating asynchronous modules within CI h...
Over the past couple of decades, the digital design technology scales to date remarkably satisfying ...
Includes bibliographic references (leaves 39-41)Thesis (M.S.)--Wichita State University, Dept. of El...
Computing systems are now frequently composed of independently clocked subsystems that cooperate to ...
For many years, intellectual property (IP) cores have been incorporated into field programmable gate...
The Gigahertz clock rates in today's VLSI systems are not only due to advances in technology but tha...
This thesis presents an analytical framework and circuit solutions to a host of timing problems that...
Latency-insensitive design is a methodology for system-on-chip (SoC) design that simplifies the reus...
This paper presents a survey on high-throughput and ultra low-power asynchronous pipeline design met...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...
Most microelectronic chips used today--in systems ranging from cell phones to desktop computers to s...
Journal ArticleParameterized first-order models for throughput, energy, and bandwidth are presented...
Abstract—This paper presents a model for analyzing the re-liability of a clockless wave pipeline as ...
Scope and Method of Study: Wave pipeline is one of the revolutionary technologies beyond conventiona...
Journal ArticleThis paper describes a new technique for integrating asynchronous modules within CI h...
Over the past couple of decades, the digital design technology scales to date remarkably satisfying ...
Includes bibliographic references (leaves 39-41)Thesis (M.S.)--Wichita State University, Dept. of El...
Computing systems are now frequently composed of independently clocked subsystems that cooperate to ...
For many years, intellectual property (IP) cores have been incorporated into field programmable gate...
The Gigahertz clock rates in today's VLSI systems are not only due to advances in technology but tha...
This thesis presents an analytical framework and circuit solutions to a host of timing problems that...
Latency-insensitive design is a methodology for system-on-chip (SoC) design that simplifies the reus...
This paper presents a survey on high-throughput and ultra low-power asynchronous pipeline design met...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...
Most microelectronic chips used today--in systems ranging from cell phones to desktop computers to s...
Journal ArticleParameterized first-order models for throughput, energy, and bandwidth are presented...