Method and apparatus for clock gating clock trees to reduce power dissipation
a clock tree and power dissipation technology, applied in the field of clock gating circuits, can solve the problems that neither et al. nor, et al., address the power dissipation, and conventional clock-gating circuits do not sufficiently reduce the power consumption of digital circuits
Inactive Publication Date: 2004-12-16
KEYSIGHT TECH
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Benefits of technology
This approach effectively reduces dynamic power dissipation by independently gating clock signals to each functional block, maximizing power savings while minimizing the complexity of implementation.
Problems solved by technology
However, neither Simmons et al. nor Long et al. address the power dissipation resulting from the switching elements within the clock tree feeding the functional blocks.
Thus, conventional clock-gating circuits do not sufficiently reduce the power consumption in digital circuits.
Other efforts at improving the clock tree efficiency with gated clocks also have not adequately or effectively reduced the power consumption in traditional digital circuits.
Both Minami et al. and Dean et al. present complicated circuit design techniques that are not easily implemented into existing digital circuits.
Therefore, neither Mianami et al. nor Dean et al. provide a suitable solution for reducing power consumption requirements in traditional digital circuits.
Method used
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[0027] The numerous innovative teachings of the present application will be described with particular reference to the exemplary embodiments. However, it should be understood that these embodiments provide only a few examples of the many advantageous uses of the innovative teachings herein. In general, statements made in the specification do not necessarily delimit any of the various claimed inventions. Moreover, some statements may apply to some inventive features, but not to others.
[0028] Power consumption in digital circuits can be classified as either dynamic power consumption or static power consumption. Dynamic power consumption is the dominant power consumption component and is a result of the capacitive nodes within a digital circuit switching. For example, referring to FIG. 1A, a CMOS digital circuit 10 having a capacitive node 50 is illustrated. The dynamic power dissipation in the circuit 10 is a function of the capacitive charging switching current 30b, the capacitive di...
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A clock gating circuit reduces the power dissipation in a digital circuit including at least one functional block by gating the clock signal at an input to a clock tree feeding the functional block. The clock gating circuit includes a logic gate that receives a clock signal and a clock disable signal generated by the functional block, and gates the clock signal at the input to the clock tree feeding the functional block. Further, a global signal generator is provided to transmit a global signal to each of the functional blocks to prevent the generation of clock disable signals, when necessary, such as during testing of chips.
Description
[0001] 1. Technical Field of the Invention[0002] The present invention relates generally to clock gating circuits, and in particular to methods for gating clock distribution networks within digital circuits.[0003] 2. Description of Related Art[0004] Digital circuits have widespread applications in the computing industry. Recently, the demand for mobile computing devices, such as personal digital assistants (PDAs), cellular telephones and laptop computers, has increased significantly. Mobile computing devices typically rely on batteries for power, and therefore, a key specification for such devices is low power consumption. In addition to increasing the battery life, reducing the power consumption in mobile computing devices also reduces the amount of heat generated, which enables smaller computing devices to be produced with diminished cooling requirements.[0005] Significant power savings in such mobile computing devices can be obtained by reducing the amount of switching activity i...
Claims
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IPC IPC(8): G06F1/32
CPCY02B60/1282G06F1/3203G06F1/3237Y02B60/32G06F9/3869Y02B60/1221G06F1/3287Y02D10/00Y02D30/50
Inventor SRIKANTAM, VAMSI K.CLARK, AIRELL RICHARD II
Owner KEYSIGHT TECH