HIGHLY RECONFIGURABLE MULTI- RADIX TRIVIUM DESIGN FOR SECURED DATA TRANSMISSION 1 Mr.T.R.Dinesh Kumar, 2 Dr.KMohanasundaram 3 Dr.M.Anto Bennet, 1 Assistant professor, 3 Professor,Electronics and Communication Engineering, Vel tech, Chennai-600062 2 Professor,Electrical and Electronics Engineering,Vel Tech Multitech Dr. Rangarajan Dr. Sakunthala Engineering College,,Chennai,Tamilnadu,India M Priyanka K Lakshmi Ravali UG students,Department of Electronics and Communication Engineering VEL TECH Chennai-600 062 Email: 1 [email protected]Abstract: A low-power dynamically reconfigurable Multi radix Trivium standard (MRT) is proposed for highly protected data transmission in hardware to Overcome side channel attack’s. The architecture is functioned as a scalable IP Core Characterized by means of having dynamic reconfigurable while in curing only a ratio of ~2% increase in the energy consumption and requiring ~40% less area then a 2048 –point non-reconfigurable MRT fabric using register merging technique on the former hand, compared with existing multi- radix trivium architecture which is mapped onto the general persistence reconfigurable architecture, It devours 30 ~94%less energy consumption. The tools required for stimulation are Model-Sim and MATLAB and for the tenacity of synthesis Quartus II IDE and Xilinx are been used. Index terms: Trivium, Multi-radix, Reconfigurable FFT,Multi- radixtrivium standard(MRT),Advanced Encryption Standard (AES), Side Channel Attack (SCA), HardwareTrojan, Quartus 1. Introduction: The FFT (Fast Fourier Transform)takes a timedomain signal then transforms it into frequency domain signal that can bewidely used to find the unfilled part of the spectrum in 4G transmission and can furthermore be castoff to design filters. Orthogonal Frequency Division Multiplexing (OFDM), since its discovery, has become an modulation of choice that is being used in almost all wireless Low Noise Amplifier standards like HiperLAN2, 802.11a, 802.16a, DAB, VDSL, ADSL and Digital Video Broadcasting standard (DVBT). OFDM is an multi- carrier system which encodes data bits on to multiple subcarriers and transmitted instantaneouslyin time. The transmitted stream of data experiences fading due to its signal arrival from multi paths. This cause received signal power to fluctuate. Different sub- channels are distorted differently. A fixed set of orthogonal sub-carriers together forms an OFDM symbol. To avoid inter symbol interference (ISI) due to multiple paths, consecutive OFDM symbols are alienated by the guard band. This makes it an very proficient scheme for the transmission in multi-path wireless channels. The usage of an FFT/IFFT pair for the tenacity of modulation and demodulation makes the transmission computationally efficient as well. The enhancement in parallelism is equivalent to the number of pipes introduced. Memory based architectures are repeatedly used to analyze FFT in a serial manner with one or few processing elements. Intermediate FFT result and the twiddle factors are being stored in system memory. Memory based architectures are well suitable for area efficient low power applications[6,7,8]. TABLE I HARDWARE COMPLEXITY OF THE FFT ARCHITECTURES International Journal of Pure and Applied Mathematics Volume 118 No. 20 2018, 3365-3372 ISSN: 1314-3395 (on-line version) url: http://www.ijpam.eu Special Issue ijpam.eu 3365
8
Embed
HIGHLY RECONFIGURABLE MULTI - RADIX TRIVIUM DESIGN FOR ... · HIGHLY RECONFIGURABLE MULTI - RADIX TRIVIUM DESIGN FOR SECURED DATA TRANSMISSION 1Mr.T.R.Dinesh Kumar, 2Dr.KMohanasundaram
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
A low-power dynamically reconfigurable Multi radix Trivium standard (MRT) is proposed for highly
protected data transmission in hardware to
Overcome side channel attack’s. The architecture is
functioned as a scalable IP Core Characterized by
means of having dynamic reconfigurable while in
curing only a ratio of ~2% increase in the energy
consumption and requiring ~40% less area then a
2048 –point non-reconfigurable MRT fabric using
register merging technique on the former hand,
compared with existing multi- radix trivium
architecture which is mapped onto the general
persistence reconfigurable architecture, It devours 30 ~94%less energy consumption. The tools required for
stimulation are Model-Sim and MATLAB and for the
tenacity of synthesis Quartus II IDE and Xilinx are
been used.
Index terms:
Trivium, Multi-radix, Reconfigurable FFT,Multi-
radixtrivium standard(MRT),Advanced Encryption
Standard (AES), Side Channel Attack (SCA),
HardwareTrojan, Quartus
1. Introduction:
The FFT (Fast Fourier Transform)takes a timedomain
signal then transforms it into frequency domain
signal that can bewidely used to find the unfilled part of the spectrum in 4G transmission and can
furthermore be castoff to design filters. Orthogonal
Frequency Division Multiplexing (OFDM), since its
discovery, has become an modulation of choice that
is being used in almost all wireless Low Noise
Amplifier standards like HiperLAN2, 802.11a,
802.16a, DAB, VDSL, ADSL and Digital Video
Broadcasting standard (DVBT). OFDM is an multi-
carrier system which encodes data bits on to multiple
subcarriers and transmitted instantaneouslyin time.
The transmitted stream of data experiences fading
due to its signal arrival from multi paths. This cause
received signal power to fluctuate. Different sub-
channels are distorted differently. A fixed set of
orthogonal sub-carriers together forms an OFDM
symbol. To avoid inter symbol interference (ISI) due to multiple paths, consecutive OFDM symbols are
alienated by the guard band. This makes it an very
proficient scheme for the transmission in multi-path
wireless channels. The usage of an FFT/IFFT pair for
the tenacity of modulation and demodulation makes
the transmission computationally efficient as well.
The enhancement in parallelism is equivalent to the
number of pipes introduced. Memory based
architectures are repeatedly used to analyze FFT in a
serial manner with one or few processing elements.
Intermediate FFT result and the twiddle factors are being stored in system memory. Memory based
architectures are well suitable for area efficient low
power applications[6,7,8].
TABLE I
HARDWARE COMPLEXITY OF THE FFT
ARCHITECTURES
International Journal of Pure and Applied MathematicsVolume 118 No. 20 2018, 3365-3372ISSN: 1314-3395 (on-line version)url: http://www.ijpam.euSpecial Issue ijpam.eu
3365
. Also, for very long length FFT calculations these
memory architectures might be best suited. Different
butterfly dispensation elements can require erratic
memory access patterns and provide various power
and speed results. Based on results from prior work we have also elected three FFT implementations that
would maximize/minimize power and area, power
and speed or area and speed. Table 1 gives the
various hardware difficulty of FFT architecture i.e
the number of registers, multipliers and adders.
Trivium:
Todeliveran flexible trade of amongst speed and the
gate count in hardware, Synchronous stream cypher
is designed called the trivium which is also
effectively used in software implementation. Output of about 264bit can bespawned from a 80 bit key plus
an 80 bit IV. This is a simplest
eSTREAMentrant,while this shows an remarkable
resistance to cryptanalysis on behalf ofit’s simplicity
Cipher and Its White-BoxImplementation”. [3] Md. Jahiruzzaman, MasudAnNur Islam Fahim, SakibMostafa, A. B. M. AowladHossain.” An Adaptive Reconfigurable Radix-2n FFT/IFFTArchitecture”. 2016 5th International Conference on Informatics, Electronics and Vision (ICIEV).
[4] J. Gong, G. Chen, L. Li, and J. Li, “A secure authentication protocol for RFID based on Trivium,” ,Jun. 2011, pp. 107–109. [5] DebrupChakraborty, CuauhtemocMancillas-L_opez, and PalashSarkar.” STES: A Stream Cipher Based Low
TABLE IV PROPOSED HARDWARE TRIVIUM
AREA
POWER Fmax
Total po
wer
Dynamic
Static
I/O Pow
er
627(1 iteratio
n) 512
(Registers)
168.39mw
15.75mw
80.12
mw
72.52mw
239.35Mhz
International Journal of Pure and Applied Mathematics Special Issue
3369
Cost Scheme for Securing Stored Data”.0018-9340 _ 2014 IEEE.
[6] Dr. AntoBennet, M, SankarBabu G, Suresh R,
Mohammed Sulaiman S, Sheriff M, Janakiraman G
,Natarajan S, “Design & Testing of Tcam Faults
Using TH Algorithm”, Middle-East Journal of
Scientific Research 23(08): 1921-1929, August 2015
.
[7] Dr. AntoBennet, M “Power Optimization
Techniques for sequential elements using pulse
triggered flipflops”, International Journal of
Computer & Modern Technology , Issue 01
,Volume01 ,pp 29-40, June 2015.
[8] Dr. AntoBennet, M,Manimaraboopathy M,P.
MaragathavalliP,Dinesh Kumar T R, “Low
Complexity Multiplier For Gf(2m) Based All One
Polynomial”, Middle-East Journal of Scientific
Research 21 (11): 2064-2071, October 2014.
International Journal of Pure and Applied Mathematics Special Issue
3370
International Journal of Pure and Applied Mathematics Special Issue