Resource-Shared Crypto-Coprocessor of AES Enc/Dec With SHA-3

Kundi, Dur-e-Shahwar; Khalid, Ayesha; Aziz, Arshad; Wang, Chenghua; O’Neill, Máire; Liu, Weiqiang

doi:10.1109/tcsi.2020.2997916

Cited by 30 publications

(19 citation statements)

References 37 publications

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“…Table II summarizes a performance comparison with other works at the minimum energy point. Although the energy efficiency is similar to the one reported in [7] and [6], authors in [7] employed non-standard logic cells, and authors in [6] implemented an additional memory macro inside the DTLS processor. In contrast, this work demonstrates an approach that fits in more general-purpose systems and low-cost technology nodes, enabling complex security instances in multiple embedded applications.…”

Section: Measurement Resultssupporting

confidence: 61%

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AES Sbox Acceleration Schemes for Low-Cost SoCs

Duran

Gomez

Roa

2021

2021 IEEE International Symposium on Circuits and Systems (ISCAS)

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Current solutions for low-cost and secure systems have ended up trading effective encryption schemes for lighter encryption schemes to ensure longevity in battery-powered applications. Here we demonstrate the potential to apply an effective and lighter encryption scheme, such as AES-256, in a low-cost battery-powered systems-on-chip (SoC) without demanding excessive energy. We accelerated AES-256 with a custom instruction along with an enhanced memory access scheme. Measurement results from a fabricated SoC featuring a RISC-V based 32-bit processor indicate a 900 fold improvement of AES-256 computing energy efficiency compared to pure-software implementations. The memory access improves the energy by 3 times an standard push-pull hardware implementation.

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Section: Measurement Resultssupporting

confidence: 61%

“…Addressing AES acceleration requires special attention for the substitution byte operation (Sbox) resourcehungry block inside the AES algorithm [5]. Although some AES implementations report high energy-efficiency values [6], [7], they rely on adding exclusive-use memory macros and non-standard logic cells.…”

Section: Introductionmentioning

confidence: 99%

AES Sbox Acceleration Schemes for Low-Cost SoCs

Duran

Gomez

Roa

2021

2021 IEEE International Symposium on Circuits and Systems (ISCAS)

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show abstract

“…Moreover, the proposed system has the highest throughput, which is even twice as fast as a simple DCT compression and stream cipher system [47]. Also, the throughput of the proposed system is 62% higher than the FPGA-based system presented in [62], which accommodates a single AES-128 core with Keccakf[400]. Regarding the HW implementation area, the proposed system has the largest slice utilization.…”

Section: B the Hw Performancementioning

confidence: 99%

On-the-Fly Parallel Processing IP-Core for Image Blur Detection, Compression, and Chaotic Encryption Based on FPGA

et al. 2021

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This paper presents a 3 in 1 standalone FPGA system which can perform color image blur detection in parallel with compression and encryption. Both blur detection and compression are based on the 3-level Haar wavelet transform, which is used as a common building block to save the resources. The compression is based on performing the hard thresholding scheme followed by the Run Length Encoding (RLE) technique. The encryption is based on the 128-bit Advanced Encryption Standard (AES), which is considered one of the most secure algorithms. Moreover, the modified Lorenz chaotic system is combined with the AES to perform the Cipher Block Chaining (CBC) mode. The proposed system is realized using HDL and implemented using Xilinx on XC5VLX50T FPGA. The system has utilized only 25% of the available slices. Furthermore, the system can achieve a throughput of 3.458 Gbps, which is suitable for realtime applications. To validate the compression performance, the system has been tested with all the standard 256×256 images. It is shown that depending on the amount of details in the image, the system can achieve 30dB PSNR at compression ratios in the range of (0.08-0.38). The proposed system can be integrated with digital cameras to process the captured images on-the-fly prior to transmission or storage. Based on the application, the blurred images can be either marked for future enhancement or simply filtered out.

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“…In [21], a compact AES through optimizing the mix columns and inverse mix columns transformations was obtained. The work [22] shared the circuitry of AES and SHA-3. A 60 Gbps reconfigurable cryptographic processor, including AES and SHA algorithms, was proposed in [23].…”

Section: Introductionmentioning

confidence: 99%

VLSI Architecture of S-Box With High Area Efficiency Based on Composite Field Arithmetic

et al. 2022

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This work aims at optimizing the hardware implementation of the SubBytes and inverse SubBytes operations in the advanced encryption standard (AES). To this, the composite field arithmetic (CFA) is employed to optimize all building blocks in S-box (and inverse S-box) of SubBytes (and inverse SubBytes) transformation. A joint design of S-box and inverse S-box is also proposed to further enhance the area efficiency. Specifically, the area of multiplier in the Galois composite field, GF((2 2 ) 2 ), is reduced. The squaring and multiplication with constant λ in GF((2 2 ) 2 ) are combined and optimized as well. Moreover, the multiplicative inversion in GF((2 2 ) 2 ) is manually optimized. Furthermore, the S-box and inverse Sbox are combined and optimized using the pre_processing and post_processing modules. To increase the throughput, a balanced and pipelined architecture is derived. Using the proposed architecture, a throughput of 5.79 Gbps for the S-box can be achieved on Virtex-6 XC6VLX240T and 10% better than the conventional work. According to the ASIC implementation result, the proposed design can still achieve the highest area efficiency and approximately 30% better than conventional works using TSMC 90nm process.INDEX TERMS Advanced encryption standard (AES), Composite field arithmetic (CFA), S-box, VLSI architecture.

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Resource-Shared Crypto-Coprocessor of AES Enc/Dec With SHA-3

Cited by 30 publications

References 37 publications

AES Sbox Acceleration Schemes for Low-Cost SoCs

AES Sbox Acceleration Schemes for Low-Cost SoCs

On-the-Fly Parallel Processing IP-Core for Image Blur Detection, Compression, and Chaotic Encryption Based on FPGA

VLSI Architecture of S-Box With High Area Efficiency Based on Composite Field Arithmetic

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