Implementation of PRINCE with resource-efficient structures based on FPGAs

来源 :信息与电子工程前沿(英文版) | 被引量 : 0次 | 上传用户:dingsiwei2009
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
In this era of pervasive computing, low-resource devices have been deployed in various fields. PRINCE is a lightweight block cipher designed for low latency, and is suitable for pervasive computing applications. In this paper, we propose new circuit structures for PRINCE components by sharing and simplifying logic circuits, to achieve the goal of using a smaller number of logic gates to obtain the same result. Based on the new circuit structures of components and the best sharing among components, we propose three new hardware architectures for PRINCE. The architectures are simulated and synthesized on different pro-grammable gate array devices. The results on Virtex-6 show that compared with existing architectures, the resource consumption of the unrolled, low-cost, and two-cycle architectures is reduced by 73, 119, and 380 slices, respectively. The low-cost architecture costs only 137 slices. The unrolled architecture costs 409 slices and has a throughput of 5.34 Gb/s. To our knowledge, for the hardware implementation of PRINCE, the new low-cost architecture sets new area records, and the new unrolled architecture sets new throughput records. Therefore, the newly proposed architectures are more resource-efficient and suitable for lightweight, latency-critical applications.
其他文献
目的 探究神经肌肉电刺激联合早期吞咽管理对颅脑损伤吞咽障碍患者吞咽功能及神经功能的影响.方法 选取该院2019年12月—2021年4月收治的142例颅脑损伤吞咽障碍患者,按照随机数字表法分为对照组和观察组,每组71例.对照组采用早期吞咽管理,观察组采用神经肌肉电刺激联合早期吞咽管理.比较两组干预前后吞咽功能及神经功能.结果 干预前,两组洼田饮水试验(water swallow test,WST)评分、Gugging吞咽功能评估量表(gugging swallowing screen,GUSS)评分、标准吞
目的 探讨计算机认知矫正治疗(computerized cognitive remediation therapy,CCRT)联合日间康复技术在精神分裂症患者中的应用价值.方法 选择该院2019年4月—2021年2月收治的精神分裂症患者82例,按随机数字表法分为两组,每组41例.对照组采用日间康复技术,观察组采用CCRT联合日间康复技术,均干预3个月.比较两组认知功能、社会功能、日常生活活动能力及精神症状.结果 干预前,两组简易智能精神状态检查量表(mini-mental state examinatio
目的 探讨脚踏车训练联合综合康复干预对脑血栓患者肢体功能恢复的影响.方法 选择2019年3月—2021年1月该院收治的脑血栓患者86例为研究对象,所有患者均行溶栓治疗,按照随机数字表法分为两组,每组43例.对照组采用综合康复干预,观察组在对照组基础上联合脚踏车训练,均连续干预3个月.比较两组生活自理能力、神经功能缺损程度、肢体运动功能、满意度及依从性.结果 两组干预3个月后改良Barthel指数(modified Barthel index,MBI)、美国国立卫生研究院卒中量表(National Inst
Distributed optimization has been well developed in recent years due to its wide applications in machine learning and signal processing. In this paper, we focus on investigating distributed optimization to minimize a global objective. The objective is a s
The use of unmanned aerial vehicles (UAVs) is becoming more commonplace in search-and-rescue tasks, but UAV search planning can be very complex due to limited response time, large search area, and multiple candidate search modes. In this paper, we present
Finding the optimal optoelectronic properties (zero-order optical transmittance, shielding effectiveness, and stray light uniformity) of metallic mesh is significant for its application in electromagnetic interference shielding areas. However, there are f
本文详细介绍了LEAP-1B发动机径向驱动轴(RDS)孔探开发完善过程及其控制方案.
Lane changing assistance in autonomous vehicles is a popular research topic. Scene modeling of the driving area is a prerequisite for lane changing decision problems. A road environment representation method based on a dynamic occupancy grid is proposed i
介绍了波音737等窄体飞机因空气污染引发的空调组件地面过热故障现有技术措施的不足,从大气污染和结垢机理进行分析,搭建飞机空调组件的系统仿真模型,基于污垢洗脱机理研制空调热交换器清洗设备,并建立了空调组件健康管理系统.
航空器损伤检测是对航空器外表面进行细致检查以判断定位损伤细节部位的一种技术手段,对保证飞行安全起到关键作用,但传统的检测手段耗费大量人力物力,检测效率不高.本文简要介绍了航空器损伤的各类形式和通用检测方法,提出一种全新的无人机巡检与智能识别算法的理论方法,以达到精准检测航空器损伤的目的,提高航空器损伤检测效率和航空器固有安全性及可靠性水平.