Add to ORKGIn this paper, we introduce a novel architecture for a hardware based network intrusion detection system (NIDS). Current software-based NIDS are too compute intensive and can not meet the bandwidth requirements of a modern network. Thus, hardware techniques are desired to speed up network processing. This paper introduces a FPGA based keyword match processor that can serve as the core of a hardware based NIDS. The keyword match processor’s key feature is a cellular processor architecture that allows content addressable memory (CAM) to process variable sized keys. These CAMs allow us to perform intrusion detection signature lookups at line speed at rates well past 2 Gbps. 1
[[abstract]]As the Internet grows at a very rapid pace, so does the incidence of attack events and d...
Network security is very important for Internet-connected hosts because of the widespread of worms, ...
Modern Network Intrsuion Detection Systems (NIDSs) use anomaly detection to capture malicious attack...
[[abstract]]The objective of this project is to develop a novel FPGA-based signature match co-proces...
[[abstract]]A novel architecture for a hardware-based network intrusion detection system (NIDS) is p...
Malicious attacks and threats over network can be identified and prevented by Intrusion detection sy...
[[abstract]]A novel FPGA-based signature match circuit serving as the core of a hardware-based netwo...
[[abstract]]This thesis introduces a novel FPGA based signature match co-processor that can serve as...
[[abstract]]This paper introduces a novel FPGA-based signature match co-processor that can serve as ...
[[abstract]]This paper introduces a novel FPGA-based signature match co-processor architecture servi...
[[abstract]]A novel FPGA-based signature match circuit that can serve as the core of a hardware-base...
[[abstract]]With the appearance of multi-gigabit network infrastructure, a typical network intrusion...
Abtract: Intrusion rule processing in reconfigurable hardware enables intrusion detection and preven...
The objective of this research is to design and develop a reconfigurable string matching co-processo...
Abstract—Computers face an ever increasing number of threats from hackers, viruses and other malware...
[[abstract]]As the Internet grows at a very rapid pace, so does the incidence of attack events and d...
Network security is very important for Internet-connected hosts because of the widespread of worms, ...
Modern Network Intrsuion Detection Systems (NIDSs) use anomaly detection to capture malicious attack...
[[abstract]]The objective of this project is to develop a novel FPGA-based signature match co-proces...
[[abstract]]A novel architecture for a hardware-based network intrusion detection system (NIDS) is p...
Malicious attacks and threats over network can be identified and prevented by Intrusion detection sy...
[[abstract]]A novel FPGA-based signature match circuit serving as the core of a hardware-based netwo...
[[abstract]]This thesis introduces a novel FPGA based signature match co-processor that can serve as...
[[abstract]]This paper introduces a novel FPGA-based signature match co-processor that can serve as ...
[[abstract]]This paper introduces a novel FPGA-based signature match co-processor architecture servi...
[[abstract]]A novel FPGA-based signature match circuit that can serve as the core of a hardware-base...
[[abstract]]With the appearance of multi-gigabit network infrastructure, a typical network intrusion...
Abtract: Intrusion rule processing in reconfigurable hardware enables intrusion detection and preven...
The objective of this research is to design and develop a reconfigurable string matching co-processo...
Abstract—Computers face an ever increasing number of threats from hackers, viruses and other malware...
[[abstract]]As the Internet grows at a very rapid pace, so does the incidence of attack events and d...
Network security is very important for Internet-connected hosts because of the widespread of worms, ...
Modern Network Intrsuion Detection Systems (NIDSs) use anomaly detection to capture malicious attack...