Power dissipation is an important design constraint in today’s CMOS VLSI design and is addressed widely by the researchers across the globe. Switching activity is one of the factors that affect dynamic power in a chip and several publications have suggested various techniques to reduce the same. Reduction of switching activity in the busses attains significance as bus width, bus capacitance and the clock are recording continuous uptrend. In this paper, we propose a technique for bus encoding, which, reduces the number of transitions on the bus and performs better than the existing methods such as bus invert coding and shift invert coding for random data in terms of switching activity, without the need for extra overhead in computation and c...
This paper describes a novel low-power coding methodology for buses. Ultra deep submicron technology...
The power dissipated by system-level buses is the largest contribution to the global power of compl...
In microprocessor-based systems, large power savings can be achieved through reduction of the transi...
Abstruct- Technology trends and especially portable applications drive the quest for low-power VLSI ...
The two main sources of power dissipation in CMOS circuits are static current, which results from re...
Transitions on high capacitance busses in VLSI systems result in considerable power dissipation. Var...
Low power VLSI circuit design is one of the most important issues in present day technology. One of ...
Dynamic power dissipation on I/O buses is an important issue for high-speed communication between ch...
[[abstract]]In this paper, we propose a bus encoding scheme to minimize coupling effects which cause...
We present a partial bus-invert coding scheme for power optimization of system level bus. In the pro...
Coupling effects between on-chip interconnects must be addressed in ultra deep submicron VLSI and sy...
Coupling effects between on-chip interconnects must be addressed in ultra deep submicron VLSI and sy...
The dynamic power management (DPM) represents an important challenge for extending the battery lifet...
The power dissipated by system-level buses is the largest contribution to the global power of comple...
<p>Multiplexing parallel busses into serial links has been proposed for its advantages such as reduc...
This paper describes a novel low-power coding methodology for buses. Ultra deep submicron technology...
The power dissipated by system-level buses is the largest contribution to the global power of compl...
In microprocessor-based systems, large power savings can be achieved through reduction of the transi...
Abstruct- Technology trends and especially portable applications drive the quest for low-power VLSI ...
The two main sources of power dissipation in CMOS circuits are static current, which results from re...
Transitions on high capacitance busses in VLSI systems result in considerable power dissipation. Var...
Low power VLSI circuit design is one of the most important issues in present day technology. One of ...
Dynamic power dissipation on I/O buses is an important issue for high-speed communication between ch...
[[abstract]]In this paper, we propose a bus encoding scheme to minimize coupling effects which cause...
We present a partial bus-invert coding scheme for power optimization of system level bus. In the pro...
Coupling effects between on-chip interconnects must be addressed in ultra deep submicron VLSI and sy...
Coupling effects between on-chip interconnects must be addressed in ultra deep submicron VLSI and sy...
The dynamic power management (DPM) represents an important challenge for extending the battery lifet...
The power dissipated by system-level buses is the largest contribution to the global power of comple...
<p>Multiplexing parallel busses into serial links has been proposed for its advantages such as reduc...
This paper describes a novel low-power coding methodology for buses. Ultra deep submicron technology...
The power dissipated by system-level buses is the largest contribution to the global power of compl...
In microprocessor-based systems, large power savings can be achieved through reduction of the transi...