Figure - available from: Engineering Research Express
This content is subject to copyright. Terms and conditions apply.
Source publication
![An SQCSB architecture proposed by [2].](publication/369323474/figure/fig3/AS:11431281211649116@1702473906714/An-SQCSB-architecture-proposed-by-2_Q320.jpg)
![The CaSeA (SQCSC) proposed by [13].](publication/369323474/figure/fig5/AS:11431281211694299@1702473907154/The-CaSeA-SQCSC-proposed-by-13_Q320.jpg)
This paper proposes a novel architecture of novel excess-1 adder based
Carry Select Adder (M2CSA) using single leaf cell i.e., 2-1 Multiplexer. The proposed
4-, 8-, 16-, 32-, 64-bit M2CSAs use 2-1 Multiplexers only. The complex gates such
as XOR gates are completely eliminated which exist in existing Carry Select Adders
(CaSeAs). A 64-bit M2CSA is...
Citations
... In scalable information systems, edge computing (EC) [1] can help to overcome the challenges of latency, bandwidth, and connectivity in large-scale networks by reducing the amount of data that needs to be transmitted over the network. The edge devices [2], such as sensors, cameras, gateways, routers, switches, multiplexers [3], integrated access devices (IADs), etc., can perform initial data processing and filtering, reducing the data volume sent to the central system. ...
INTRODUCTION: In scalable information systems, edge computing can help to overcome the challenges of latency, bandwidth, and connectivity in large-scale networks by reducing the amount of data that needs to be transmitted over the network. OBJECTIVES: The edge devices, such as sensors, cameras, gateways, routers, switches, multiplexers, integrated access devices, etc., can perform initial data processing and filtering, reducing the data volume sent to the central system. METHODS: This special issue aims to provide the recent progress of intelligent edge caching and computing for scalable information systems. RESULTS: The guest editors received more than 30 submissions, and finally, ten papers were accepted. CONCLUSION: This special issue has contributed to advancing academic research and practice in intelligent edge caching and computing for scalable information systems.
