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Malware homology identification is important in attacking event tracing, emergency response scheme generation, and event trend prediction. Current malware homology identification methods still rely on manual analysis, which is inefficient and cannot respond quickly to the outbreak of attack events. In response to these problems, we propose a new malware homology identification method from a gene perspective...
As fabrication process exploits even deeper submicron technology, power consumption is becoming one of the most critical obstacles in electronic circuit and system designs nowadays. Meanwhile, the leakage power is dominating the power consumption. Various emerging nanodevices have been developed to tackle the leakage power issue in recent years. The single-electron transistor (SET) is regarded as...
The power dissipation has become a crucial issue for most electronic circuit and system designs nowadays when fabrication processes exploit even deeper submicron technology. In particular, leakage power is becoming a dominant source of power consumption. In recent years, the reconfigurable single-electron transistor (SET) array has been proposed as an emerging circuit design style for continuing Moore's...
As compared to two-dimensional (2D) ICs, 3D integration is a breakthrough technology of growing importance that has the potential to offer significant performance and functional benefits. This emerging technology allows stacking multiple layers of dies and resolves the vertical connection issue by through-silicon vias (TSVs). However, though a TSV is considered a promising solution for vertical connection,...
As fabrication processes exploit even deeper submicron technology, power dissipation has become a crucial issue for most electronic circuit and system designs nowadays. In particular, leakage power is becoming a dominant source of power consumption. Recently, the reconfigurable single-electron transistor (SET) array has been proposed as an emerging circuit design style for continuing Moore's Law due...
Since utilizing compound functional units (e.g., multiplier-accumulate) designed with shorter delay and/or smaller area than cascaded basic functional units is a well-known technique in system design, this paper presents an ILP-based approach for performance-driven behavioral synthesis with compound functional units. The algorithm maximizes the performance of a design under resource constraints by...
As fabrication process exploits even deeper submicron technology, global interconnect delay is becoming one of the most critical performance obstacles in system-on-chip (SoC) designs nowadays. Recent years latency-insensitive system (LIS), which enables multicycle communication to tolerate variant interconnect delay without substantially modifying pre-designed IP cores, has been proposed to conquer...
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