The energy consumption due to input-output pins is a substantial part of the overall chip consumption. To reduce this energy, this work presents the working-zone encoding (WZE) method for encoding an external address bus, based on the conjecture that programs favor a few working zones of their address space at each instant. In such cases, the method identifies these zones and sends through the bus only the offset of this reference with respect to the previous reference to that zone, along with an identifier of the current working zone. This is combined with a one-hot encoding for the offset. Several improvements to this basic strategy are also described. The approach has been applied to several address streams, broken down into instruction-...
In microprocessor-based systems, data and address buses are the core of the interface between a micr...
Abstract—Off-chip bus transitions are a major source of power dissipation for embedded systems. In t...
Transitions on high capacitance busses in VLSI systems result in considerable power dissipation. Var...
The energy consumption due to input-output pins is a substantial part of the overall chip consumptio...
The energy at the I/O pins is a significant part of the overall consumption of a chip. To reduce thi...
The energy consumption at the I/O pins is a significant part of the overall chip consumption. This p...
In this paper, we introduce a class of irredundant low power encoding techniques for memory address ...
In this paper, we introduce a class of irredundant low power encoding techniques for memory address ...
In microprocessor-based systems, large power savings can be achieved through reduction of the transi...
The power dissipated by system-level buses is the largest contribution to the global power of comple...
Abstract — This paper presents a solution to the problem of reducing the power dissipated by a digit...
The power dissipated by system-level buses is the largest contribution to the global power of compl...
In microprocessor-based systems, data and address buses are the core of the interface between a micr...
Abstract—Off-chip bus transitions are a major source of power dissipation for embedded systems. In t...
Transitions on high capacitance busses in VLSI systems result in considerable power dissipation. Var...
The energy consumption due to input-output pins is a substantial part of the overall chip consumptio...
The energy at the I/O pins is a significant part of the overall consumption of a chip. To reduce thi...
The energy consumption at the I/O pins is a significant part of the overall chip consumption. This p...
In this paper, we introduce a class of irredundant low power encoding techniques for memory address ...
In this paper, we introduce a class of irredundant low power encoding techniques for memory address ...
In microprocessor-based systems, large power savings can be achieved through reduction of the transi...
The power dissipated by system-level buses is the largest contribution to the global power of comple...
Abstract — This paper presents a solution to the problem of reducing the power dissipated by a digit...
The power dissipated by system-level buses is the largest contribution to the global power of compl...
In microprocessor-based systems, data and address buses are the core of the interface between a micr...
Abstract—Off-chip bus transitions are a major source of power dissipation for embedded systems. In t...
Transitions on high capacitance busses in VLSI systems result in considerable power dissipation. Var...