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Bibliographic Details
Main Authors: Derry, Pratama, Ari, Laksmono Agus Mahardika, Muhammad, Iqbal, Kim, Howon
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.15034
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author Derry, Pratama
Ari, Laksmono Agus Mahardika
Muhammad, Iqbal
Kim, Howon
author_facet Derry, Pratama
Ari, Laksmono Agus Mahardika
Muhammad, Iqbal
Kim, Howon
contents This paper presents a multithread and efficient cryptographic hardware access (MECHA) for efficient and fast cryptographic operations that eliminates the need for context switching. Utilizing a UNIX domain socket, MECHA manages multiple requests from multiple applications simultaneously, resulting in faster processing and improved efficiency. We comprise several key components, including the Server thread, Client thread, Transceiver thread, and a pair of Sender and Receiver queues. MECHA design is portable and can be used with any communication protocol, with experimental results demonstrating a 83% increase in the speed of concurrent cryptographic requests compared to conventional interface design. MECHA architecture has significant potential in the field of secure communication applications ranging from cloud computing to the IoT, offering a faster and more efficient solution for managing multiple cryptographic operation requests concurrently.
format Preprint
id arxiv_https___arxiv_org_abs_2506_15034
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle MECHA: Multithreaded and Efficient Cryptographic Hardware Access
Derry, Pratama
Ari, Laksmono Agus Mahardika
Muhammad, Iqbal
Kim, Howon
Cryptography and Security
This paper presents a multithread and efficient cryptographic hardware access (MECHA) for efficient and fast cryptographic operations that eliminates the need for context switching. Utilizing a UNIX domain socket, MECHA manages multiple requests from multiple applications simultaneously, resulting in faster processing and improved efficiency. We comprise several key components, including the Server thread, Client thread, Transceiver thread, and a pair of Sender and Receiver queues. MECHA design is portable and can be used with any communication protocol, with experimental results demonstrating a 83% increase in the speed of concurrent cryptographic requests compared to conventional interface design. MECHA architecture has significant potential in the field of secure communication applications ranging from cloud computing to the IoT, offering a faster and more efficient solution for managing multiple cryptographic operation requests concurrently.
title MECHA: Multithreaded and Efficient Cryptographic Hardware Access
topic Cryptography and Security
url https://arxiv.org/abs/2506.15034