Adiabatic technique based low power synchronous counter design

The performance of integrated circuits is evaluated by their design architecture, which ensures high reliability and optimizes energy. The majority of the system-level architectures consist of sequential circuits. Counters are fundamental blocks in numerous very large-scale integration (VLSI) applications. The T-flip-flop is an important block in synchronous counters, and its high-power consumption impacts the overall effectiveness of the system. This paper calculates the power dissipation (PD), power delay product (PDP), and latency of the presented T flip-flop. To create a 2-bit synchronous counter based on the novel T flip-flops, a performance matrix such as PD, latency, and PDP is analyzed. The analysis is carried out at 100 and 10 MHz frequencies with varying temperatures and operating voltages. It is observed that the presented counter design has a lesser power requirement and PDP compared to the existing counter architectures. The proposed T-flip-flop design at the 45 nm technology node shows an improvement of 30%, 76%, and 85% in latency, PD, and PDP respectively to the 180 nm node at 10 MHz frequency. Similarly, the proposed counter at the 45 nm technology node shows 96% and 97% improvement in power dissipation, delay, and PDP respectively compared to the 180 nm at 10 MHz frequency

Study on development of novel materials for organic light-emitting diodes based on hole conducting substituents and their device application （ホール伝導性置換基を用いた新規OLED材料の開発及びデバイス応用に関する研究）【要約】

信州大学(Shinshu university)博士（工学）この博士論文は、次の学術雑誌論文を一部に使用しています。 / DYES AND PIGMENTS 178:108333 (2020); doi:10.1016/j.dyepig.2020.108333. © 2020 Elsevier. / APPLIED OPTICS 59(13):4114-4121 (2020); doi:10.1364/AO.391419. © 2020 Optical Society of America. / ORGANIC ELECTRONICS 86:105879 (2020); doi:10.1016/j.orgel.2020.105879. © 2020 Elsevier. / ORGANIC ELECTRONICS 87:105916 (2020); doi:10.1016/j.orgel.2020.105916. © 2020 Elsevier.ThesisHU, BAOHUA. Study on development of novel materials for organic light-emitting diodes based on hole conducting substituents and their device application （ホール伝導性置換基を用いた新規OLED材料の開発及びデバイス応用に関する研究）. 信州大学, 2021, 博士論文. 博士（工学）, 甲第759号, 令和03年03月20日授与.doctoral thesi

Heat transfer in forced convective flow boiling.

Imperial Users onl