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Metaverse Security: Performance Evaluation of Cryptography Techniques
Abstract
Encryption standards have been necessitated by these things, which include border security, defense intelligence, and distributed systems of the IoT. This paper has compared the performance of AES-256 and ASCON-128 in terms of performance based on intensive experimental data on seven cryptographic measures at four standardized payload sizes. The findings reveal that AES-256 always achieves high throughput, low encryption latency, and a reduced number of CPU cycles per byte. These properties make AES-256 very well adapted to bandwidth-intensive and latency-critical applications. Conversely, ASCON-128 has slower performance in the tested implementations, but has more predictable execution characteristics. On the whole, the outcome is an indication of an obvious application-specific trade-off: AES-256 is more appropriate for the high-performance communication system. In comparison to the ASCON-128, which is better suited to the memory-limited and low-power IoT environment, where in-built authentication and deterministic behavior are more important than raw speed.
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