A Virus Detection Process for Embedded Network Security with Low Power Consumption

A Virus Detection Process for Embedded Network Security with Low Power Consumption
Authors:G.S.SIVA KUMAR, G.SNEHITHA

Abstract: In this project, an adaptively dividable dual-port BiTCAM (unifying binary and ternary CAMs) is proposed to achieve a high-throughput, low-power, and low-cost virus-detection processor for mobile devices. The proposed dual-port BiTCAM is realized with the dual-port AND-type match-line scheme which is composed of dual-port dynamic AND gates. The dual-port designs reduce power consumption and increase storage efficiency due to shared storage spaces. Network security for mobile devices is in high demand because of the increasing virus count. Since mobile devices have limited CPU power, dedicated hardware is required, which will be yield by our BitCAM technique is essential to provide sufficient virus detection performance. 

Keywords: Ternary, Dual port, Virus, Unifying, CAM, Dynamic Power, Exactly Matching Engine. 

 INTRODUCTION 

              In this project, an adaptively dividable dual-port BiTCAM (unifying binary and ternary CAMs) is proposed to achieve a high-throughput, low-power, and low-cost virus-detection processor for mobile devices. The proposed dual-port BiTCAM is realized with the dual-port AND-type match-line scheme which is composed of dual-port dynamic AND gates. The dual-port designs reduce power consumption and increase storage efficiency due to shared storage spaces. Network security for mobile devices is in high demand because of the increasing virus count. Since mobile devices have limited CPU power, dedicated hardware is required, which will be yield by our BitCAM technique is essential to provide sufficient virus detection performance. In this project, an adaptively dividable dualport BiTCAM (unifying binary and ternary CAMs) is proposed to achieve a high-throughput, low-power, and lowcost virus-detection processor for mobile devices. The proposed dual-port BiTCAM is realized with the dual-port AND-type match-line scheme which is composed of dualport dynamic AND gates. The dual-port designs reduce power consumption and increase storage efficiency due to shared storage spaces. Network security for mobile devices is in high demand because of the increasing virus count. Since mobile devices have limited CPU power, dedicated hardware is required, which will be yield by our BitCAM technique is essential to provide sufficient virus detection performance.

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