• Title/Summary/Keyword: XOR-XNOR

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Design of an Energy Efficient XOR-XNOR Circuit (에너지 효율이 우수한 XOR-XNOR 회로 설계)

  • Kim, Jeong Beom
    • Journal of IKEEE
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    • v.23 no.3
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    • pp.878-882
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    • 2019
  • XOR(exclusive-OR)-XNOR(exclusive NOR) circuit is a basic component of 4-2 compressor for high performance arithmetic operation. In this paper we propose an energy efficient XOR-XNOR circuit. The proposed circuit is reduced the internal parasitic capacitance in critical path and implemented with 8 transistors. The circuit produces a perfect output signals for all input combinations. Compared with the previous circuits, the proposed circuit has a 14.5% reduction in propagation delay time and a 1.7% increase in power consumption. Therefore, the proposed XOR-XNOR is reduced power-delay- product (PDP) by 13.1% and energy-delay-product (EDP) by 26.0%. The proposed circuits are implemented with standard CMOS 0.18um technology and verified through SPICE simulation with 1.8V supply voltage.

Matrix type CRC and XOR/XNOR for high-speed operation in DDR4 and GDDR5 (DDR4/GDDR5에서 고속동작을 위한 matrix형 CRC 및 XOR/XNOR)

  • Lee, JoongHo
    • Journal of the Institute of Electronics and Information Engineers
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    • v.50 no.8
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    • pp.136-142
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    • 2013
  • CRC features have been added to increase the reliability of the data in memory products for high-speed operation, such as DDR4. High-speed memory products in a shortage of internal timing margin increases for the CRC calculation. Because the existing CRC requires many additional circuit area and delay time. In this paper, we show that the matrix-type CRC and a new XOR/XNOR gate could be improved the circuit area and delay time. Proposed matrix-type CRC can detect all odd-bit errors and can detect even number of bit errors, except for multiples of four bits. In addition, a single error in the error correction can reduce the burden of re-transmission of data between memory products and systems due to CRC errors. In addition, the additional circuit area, compared to existing methods can be improved by 57%. The proposed XOR gate which is consists of six transistors, it can reduce the area overhead of 35% compared to the existing CRC, 50% of the gate delay can be reduced.

Implementation of a High Performance XOR-XNOR Circuit

  • Kim, Jeong-Beom
    • The Journal of the Korea institute of electronic communication sciences
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    • v.17 no.2
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    • pp.351-356
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    • 2022
  • The parity function can be implemented with XOR (exclusive-OR) and XNOR (exclusive NOR) circuit. In this paper we propose a high performance XOR-XNOR circuit. The proposed circuitreduced the internal load capacitance on critical path and implemented with 8 transistors. The circuit produces a perfect output signals for all input combinations. Compared with the previous circuits, the proposed circuit presents the improved characteristics in average propagation delay time, power dissipation, power-delay product (PDP), and energy-delay-product (EDP). The proposed circuits are implemented with standard CMOS 0.18um technology. Computer simulations using SPICE show that the proposed circuit realizes the expected logic functions and achieves a reasonable performance.

An Approach of Hiding Hangul Secret Message in Image using XNOR-XOR and Fibonacci Technique (XNOR-XOR과 피보나치 기법을 이용하여 이미지에서 한글 비밀 메시 지를 은닉하는 방법)

  • Ji, Seon-su
    • The Journal of Korea Institute of Information, Electronics, and Communication Technology
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    • v.14 no.2
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    • pp.109-114
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    • 2021
  • As various users increase in a network environment, it is difficult to protect sensitive and confidential information transmitted and received from attackers. Concealing bitwise secret data in an image using the LSB technique can be very vulnerable to attack. To solve this problem, a hybrid method that combines encryption and information hiding is used. Therefore, an effective method for users to securely protect secret messages and implement secret communication is required. A new approach is needed to improve security and imperceptibility to ensure image quality. In this paper, I propose an LSB steganography technique that hides Hangul messages in a cover image based on MSB and LSB. At this time, after separating Hangul into chosung, jungsung and jongsung, the secret message is applied with Exclusive-OR or Exclusive-NOR operation depending on the selected MSB. In addition, the calculated secret data is hidden in the LSB n bits of the cover image converted by Fibonacci technique. PSNR was used to confirm the effectiveness of the applied results. It was confirmed 41.517(dB) which is suitable as an acceptable result.

A Design of Parity Checker/Generator Using Logic Gate for Low-Power Consumption (저 전력용 논리회로를 이용한 패리티체커 설계)

  • Lee, Jong-Jin;Cho, Tae-Won;Bae, Hyo-Kwan
    • Journal of the Institute of Electronics Engineers of Korea SC
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    • v.38 no.2
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    • pp.50-55
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    • 2001
  • In this paper, a 8bit parity checker/generator is designed using a new gate which is proposed to implement the exclusive or(XOR) and exclusive-nor(XNOR) functions for low power consumption on transistor level. Conventional XOR/XNOR gate such as CPL, DPL and CCPL designed to reduce the power consumption has an inverter to get the full swing output signals. But this inverter consumes the major part of power and causes the time delay on CMOS circuits. Thus a new technique was adopted not utilizing inverter in the circuits. The results of simulation by Hspice shows 33% of power reduction compared with CCPL gate when A 8 bit parity checker was made with the proposed new gate using $0.8{\mu}mCMOS$ technology.

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Binary CNN Operation Algorithm using Bit-plane Image (비트평면 영상을 이용한 이진 CNN 연산 알고리즘)

  • Choi, Jong-Ho
    • The Journal of Korea Institute of Information, Electronics, and Communication Technology
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    • v.12 no.6
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    • pp.567-572
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    • 2019
  • In this paper, we propose an algorithm to perform convolution, pooling, and ReLU operations in CNN using binary image and binary kernel. It decomposes 256 gray-scale images into 8 bit planes and uses a binary kernel consisting of -1 and 1. The convolution operation of binary image and binary kernel is performed by addition and subtraction. Logically, it is a binary operation algorithm using the XNOR and comparator. ReLU and pooling operations are performed by using XNOR and OR logic operations, respectively. Through the experiments to verify the usefulness of the proposed algorithm, We confirm that the CNN operation can be performed by converting it to binary logic operation. It is an algorithm that can implement deep running even in a system with weak computing power. It can be applied to a variety of embedded systems such as smart phones, intelligent CCTV, IoT system, and autonomous car.

Design of a High Speed 4-2 Compressor Architecture (고속 4-2 압축기 구조의 설계)

  • Kim, Seung-Wan;Youn, Hee-Yong
    • Proceedings of the Korean Society of Computer Information Conference
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    • 2014.01a
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    • pp.273-274
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    • 2014
  • 4-2 압축기는 곱셈기의 부분 곱 합 트리(partial product summation tree)의 기본적인 구성요소이다. 본 논문은 고속 연산이 가능한 4-2 압축기의 구조를 제안한다. 제안한 구조는 최적화된 XOR-XNOR와 MUX로 구성된다 이 구조는 기존의 구조에 비해 신호 전달시간이 감소하여 고속 연산이 가능한 장점을 갖는다.

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A Study on the Secure Double Pipe Hash Function (안전한 이중 파이프 해쉬함수에 관한 연구)

  • Kim, Hie-Do
    • The Journal of the Institute of Internet, Broadcasting and Communication
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    • v.10 no.6
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    • pp.201-208
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    • 2010
  • The classical iterated hash function is vulnerable to a multi-collision attack. Gauravaram et al. proposed 3C and 3C+ hash functions, in which an accumulation chain is added to usual Merkle-Damgard changing. Their goal is to design composition schemes resistant to generic attacks of Joux's type, but Joscak and Tuma have shown that 3C and 3C+ schemes are not better than Merkle-Damgard scheme in term of security against multi-collision attacks under some mild assumptions. In this dissertation, in order to increase security of 3C hash function, we proposed secure double pipe hash function which was effectively using XOR and XNOR operations per blocks of message. We seek to improve on the work of Lucks in a way. Proposed secure double pipe hash function takes resistance to multi-block collision, fixed point and pre-image attacks.

Design Method of Current Mode Logic Gates for High Performance LTPS TFT Digital Circuits (LTPS TFT 논리회로 성능향상을 위한 전류모드 논리게이트의 설계 방법)

  • Lee, J.C.;Jeong, J.Y.
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.44 no.9
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    • pp.54-58
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    • 2007
  • Development of high performance LTPS TFTs contributed to open up new SOP technology with various digital circuits integrated in display panels. This work introduces the current mode logic(CML) gate design method with which one can replace slow CMOS logic gates. The CML inverter exhibited small logic swing, fast response with high power consumption. But the power consumption became compatible with CMOS gates at higher clock speed. Due to small current values in CML, layout area is smaller than the CMOS counterpart even though CML uses larger number of devices. CML exhibited higher noise immunity thanks to its non-inverting and inverting outputs. Multi-input NAND/AND and NOR/OR gates were implemented by the same circuit architecture with different input confirugation. Same holds for MUX and XNOR/XOR CML gates. We concluded that the CML gates can be designed with few simple circuits and they can improve power consumption, chip area, and speed of operation.

DPA-Resistant Logic Gates and Secure Designs of SEED and SHA-1 (차분 전력분석 공격에 안전한 논리 게이트 및 SEED 블록 암호 알고리즘과 SHA-1 해쉬 함수에의 응용)

  • Baek, Yoo-Jin
    • Journal of the Korea Institute of Information Security & Cryptology
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    • v.18 no.6A
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    • pp.17-25
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    • 2008
  • The differential power attack (DPA)[8] is a very powerful side-channel attack tool against various cryptosystems and the masking method[10] is known to be one of its algorithmic countermeasures. But it is non-trivial to apply the masking method to non-linear functions, especially, to arithmetic adders. This paper proposes simple and efficient masking methods applicable to arithmetic adders. For this purpose, we use the fact that every combinational logic circuit (including the adders) can be decomposed into basic logic gates (AND, OR, NAND, NOR, XOR, XNOR, NOT) and try to devise efficient masking circuits for these basic gates. The resulting circuits are then applied to the arithmetic adders to get their masking algorithm. As applications, we applied the proposed masking methods to SEED and SHA-1 in hardware.