The power dissipated by system-level buses is the largest contribution to the global power of complex VLSI circuits. Therefore, the minimization of the switching activity at the I/O interfaces can provide significant savings on the overall power budget. This paper presents innovative encoding techniques suitable for minimizing the switching activity of system-level address buses. In particular, the schemes illustrated here target the reduction of the average number of bus line transitions per clock cycle. Experimental results, conducted on address streams generated by a real microprocessor, have demonstrated the effectiveness of the proposed methods
In this paper we present a genetic approach for the efficient generation of an encoder to minimize s...
We present a partial bus-invert coding scheme for power optimization of system level bus. In the pro...
Abstract External buses consume substantial power for their high capacitances of bus lines and I/O p...
The power dissipated by system-level buses is the largest contribution to the global power of comple...
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...
Abstract — This paper presents a solution to the problem of reducing the power dissipated by a digit...
In this paper, we introduce a class of irredundant low power encoding techniques for memory address ...
Abstract—Off-chip bus transitions are a major source of power dissipation for embedded systems. In t...
In microprocessor-based systems, data and address buses are the core of the interface between a micr...
The energy consumption at the I/O pins is a significant part of the overall chip consumption. This p...
Transitions on high capacitance busses in VLSI systems result in considerable power dissipation. Var...
Abstract — The memory subsystem is known to comprise a significant fraction of the power dissipation...
In this paper we present a genetic approach for the efficient generation of an encoder to minimize s...
We present a partial bus-invert coding scheme for power optimization of system level bus. In the pro...
Abstract External buses consume substantial power for their high capacitances of bus lines and I/O p...
The power dissipated by system-level buses is the largest contribution to the global power of comple...
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...
Abstract — This paper presents a solution to the problem of reducing the power dissipated by a digit...
In this paper, we introduce a class of irredundant low power encoding techniques for memory address ...
Abstract—Off-chip bus transitions are a major source of power dissipation for embedded systems. In t...
In microprocessor-based systems, data and address buses are the core of the interface between a micr...
The energy consumption at the I/O pins is a significant part of the overall chip consumption. This p...
Transitions on high capacitance busses in VLSI systems result in considerable power dissipation. Var...
Abstract — The memory subsystem is known to comprise a significant fraction of the power dissipation...
In this paper we present a genetic approach for the efficient generation of an encoder to minimize s...
We present a partial bus-invert coding scheme for power optimization of system level bus. In the pro...
Abstract External buses consume substantial power for their high capacitances of bus lines and I/O p...