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Network-on-chip (NoC) is an emerging alternative to address the communication problem in embedded system-on-chip designs. One of the key and major issues is the optimized mapping of the embedded applications on the underlined NoC platform. In this paper, we propose the bandwidth-constrained multi-objective segmented brute-force mapping (SBMAP) algorithm, which minimizes the communication energy consumption and reduces the computational complexity of the NoC designs. The algorithm generates efficient mapping of the embedded applications on the processing elements of the NoC system by segregating the application into multiple segments. It utilizes the property of modular systematic search, which produces high-performance results with optimized simulation time. We compared the SBMAP algorithm with the state-of-the-art mapping techniques, such as branch and bound (BB), near-optimal …