The dynamic power management (DPM) represents an important challenge for extending the battery lifetime in a portable system. The power management, based on static and off-line approaches, does not consider the basic property of a modern battery, which recovers a fraction of its charge during the idle time. The DPM approach profiles a complex system in different power figures depending on a reduced set of macro-states. The DPM problem gives a sequence of macro-states which increases the battery lifetime. The dynamic power management is also required in complex systems where the power dissipation in communication channels represent a dominant factor. The modern communication arrangements operate at rate of some G Bit/sec, which implicated hi...
In very deep sub-micron designs, cross coupling capacitances become the dominant factor of the total...
Abstract—A crucial objective in battery operated embedded systems is to work under the minimal power...
To transfer a small number, we inherently need a small number of bits. However all bit lines on a da...
Transitions on high capacitance busses in VLSI systems result in considerable power dissipation. Var...
Now a day’s VLSI has become the backbone of all types of designs. Interconnect plays an increasing r...
We present a partial bus-invert coding scheme for power optimization of system level bus. In the pro...
The power dissipated by system-level buses is the largest contribution to the global power of comple...
The two main sources of power dissipation in CMOS circuits are static current, which results from re...
In this paper we propose a coding scheme for general-purpose applications that can reduce power diss...
Power dissipation is an important design constraint in today’s CMOS VLSI design and is addressed wid...
External buses consume substantial power for their high capacitances of bus lines and I/O pins. In t...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
Abstract. Power consumption becomes an important issue for modern processors. The off-chip buses con...
The Design Automation and Test in Europe, DATE, is Europe’s leading international electronic systems...
This paper describes a novel low-power coding methodology for buses. Ultra deep submicron technology...
In very deep sub-micron designs, cross coupling capacitances become the dominant factor of the total...
Abstract—A crucial objective in battery operated embedded systems is to work under the minimal power...
To transfer a small number, we inherently need a small number of bits. However all bit lines on a da...
Transitions on high capacitance busses in VLSI systems result in considerable power dissipation. Var...
Now a day’s VLSI has become the backbone of all types of designs. Interconnect plays an increasing r...
We present a partial bus-invert coding scheme for power optimization of system level bus. In the pro...
The power dissipated by system-level buses is the largest contribution to the global power of comple...
The two main sources of power dissipation in CMOS circuits are static current, which results from re...
In this paper we propose a coding scheme for general-purpose applications that can reduce power diss...
Power dissipation is an important design constraint in today’s CMOS VLSI design and is addressed wid...
External buses consume substantial power for their high capacitances of bus lines and I/O pins. In t...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
Abstract. Power consumption becomes an important issue for modern processors. The off-chip buses con...
The Design Automation and Test in Europe, DATE, is Europe’s leading international electronic systems...
This paper describes a novel low-power coding methodology for buses. Ultra deep submicron technology...
In very deep sub-micron designs, cross coupling capacitances become the dominant factor of the total...
Abstract—A crucial objective in battery operated embedded systems is to work under the minimal power...
To transfer a small number, we inherently need a small number of bits. However all bit lines on a da...