An efficient metric of setup time for pulsed flip-flops based on output transition time
In this paper, a new metric to compute the setup time of pulse-triggered flip-flops (pulsed-FFs) is proposed. With the emergence of new technologies, digital circuits are pushing towards high-speed and energy efficient modes. Setup time is an essential aspect of the timing constraints of a synchrono...
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| creator | Bernard, Sebastien Valentian, Alexandre Belleville, Marc Bol, David Legat, Jean-Didier |
| description | In this paper, a new metric to compute the setup time of pulse-triggered flip-flops (pulsed-FFs) is proposed. With the emergence of new technologies, digital circuits are pushing towards high-speed and energy efficient modes. Setup time is an essential aspect of the timing constraints of a synchronous digital circuit. It is a key parameter to determine the minimum clock cycle, which gives the timing and energy performances of circuits. Due to their small input-to-output delay (D-to-Q), pulsed-FFs are key candidate to be the determinant sequential cell of high-speed but also energy efficient circuits. This paper shows that, for pulsed-FFs, the conventional setup time metric based on minimum data-to-output delay is loosely extracted during automatic standard-cell characterization. Thereby, we propose a new metric for characterizing the setup time of pulsed-FFs based on the output transition time. Quantitative and qualitative advantages of the proposed metric are validated with SPICE simulations in 28nm fully-depleted silicon on insulator (FDSOI) technology. The obtained gain motivates a potential integration into standard-cell characterization tools. |
| doi_str_mv | 10.1109/ICICDT.2013.6563291 |
| format | Conference Proceeding |
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With the emergence of new technologies, digital circuits are pushing towards high-speed and energy efficient modes. Setup time is an essential aspect of the timing constraints of a synchronous digital circuit. It is a key parameter to determine the minimum clock cycle, which gives the timing and energy performances of circuits. Due to their small input-to-output delay (D-to-Q), pulsed-FFs are key candidate to be the determinant sequential cell of high-speed but also energy efficient circuits. This paper shows that, for pulsed-FFs, the conventional setup time metric based on minimum data-to-output delay is loosely extracted during automatic standard-cell characterization. Thereby, we propose a new metric for characterizing the setup time of pulsed-FFs based on the output transition time. Quantitative and qualitative advantages of the proposed metric are validated with SPICE simulations in 28nm fully-depleted silicon on insulator (FDSOI) technology. 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| source | IEEE Electronic Library (IEL) Conference Proceedings |
| subjects | Approximation methods Clocks CMOS digital circuits Computer architecture Delays flip-flop high-performance Latches metric setup time standard-cell design timing closure |
| title | An efficient metric of setup time for pulsed flip-flops based on output transition time |
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