Designing high-throughput hardware accelerator for stream cipher HC-128
- Resource Type
- Authors
- Ayesha Khalid; Shashwat Raizada; Anupam Chattopadhyay; Subhamoy Maitra
- Source
- ISCAS
- Subject
- Cipher
business.industry
Margin (machine learning)
Computer science
Embedded system
Hardware acceleration
Cryptography
eSTREAM
business
Throughput (business)
Stream cipher
- Language
Due to ubiquitous deployment of embedded systems, security and privacy are emerging as major design concerns and new stream ciphers are being proposed by the cryptographic community. HC-128 is one of the recent stream ciphers that received attention after its selection as an eStream candidate. Till date, the cipher is believed to have a good security margin. In this paper we study several implementation issues for HC-128 in a disciplined manner. We first discuss the experience on embedded and customizable processors. Then we consider a dedicated hardware accelerator implementation. Further we explore several parallelization strategies for improving throughput. To the best of our knowledge such a detailed implementation exercise has not been presented in the literature. Our novel implementation strategies mark the fastest HC-128 execution reported till date.