Performance Analysis of Intel Core i7-10610U and Intel Core i7-1265U CPUs Using Benchmarking Method
Analisis Performa CPU Intel Core i7-10610U dan Intel Core i7-1265U Menggunakan Metode Benchmarking
DOI:
https://doi.org/10.52187/rdt.v6i3.336Keywords:
performance analysis, cpu, cpu-z, intel core, passmarkAbstract
Since its introduction, technology that utilizes semiconductor chips to perform data processing and computing or commonly known as microprocessors has experienced various advances and improvements in every aspect. Various innovations have been produced by microprocessor manufacturing companies, namely Intel, to adjust the Central Processing Unit (CPU) to its function. Intel periodically recreates microprocessors that have previously been on the market. The purpose of this study is to determine how significant the difference in performance is between one generation and the next. The launch of CPU products with the same type, but from different generations, shows that each CPU launched at different times always has an increase in performance compared to its predecessor. So, what causes this increase in performance? This question will be answered through testing between the Intel Core i7-10610U and Intel Core i7-1265U Passmark software version. 11. 1 and CPU-Z version. 15. 0. The use of several test tools aims to ensure that the benchmarking results are not biased from only one source and provide a comprehensive picture of the performance of each processor. The benchmarking method is the main measuring tool, while performance comparison is the purpose of the analysis. The tests performed include integer math, compression, floating point math, extended instructions/Streaming SIMD Extensions (SSE), encryption, sorting, Frequency, Single-Thread and Multi-Thread. The results of this test show that the Intel Core i7-1265U has superior performance to the Intel Core i7-10610U. This is because the number of cores, threads, and bandwidth owned by the Intel Core i7-1265U is larger and more, namely 12 threads and 54.1 GB/s for bandwidth, while the Intel Core i7-10610U has 8 threads and 45.8 GB/s bandwidth.
References
Ferdiansyah, D., Kamal, R. A., Alas, S., & Mulyanto, F. (2021). Pengujian Multicore pada Processor terhadap Performansi Server Virtualisasi Menggunakan Metode Load Testing. Journal of Information Systems and Informatics, 3(4).
Handayani, M., & Yusuf, F. (2022). Energy Efficiency and Multitasking Capability Comparison Between Intel Core i7-10510U and AMD Ryzen 5 3500U on Mobile Computing Devices. Jurnal Rekayasa dan Aplikasi Teknologi, 45–52.
Intel. (2025a). Arsitektur Hibrida Performa. Diambil kembali dari https://www.intel.co.id/content/www/id/id/products/docs/processors/core/core-14th-gen-desktop-brief.html
Intel. (2025b). Intel Processors. Diambil kembali dari https://www.intel.co.id/content/www/id/id/products/details/processors.html
Intel. (2025c). Intel® Core™ i7-10610U Specifications. Diambil kembali dari https://www.intel.co.id/products/sku/201896/
Intel. (2025d). Intel® Core™ i7-1265U Specifications. Diambil kembali dari https://www.intel.co.id/products/sku/226258/
Intel. (2025e). Nama dan Nomor Prosesor Intel. Diambil kembali dari https://www.intel.co.id/processors/processor-numbers.html
Intel. (2025f). Spesifikasi prosesor Intel® Core™ i7-10610U. Diambil kembali dari https://www.intel.co.id/content/www/id/id/products/sku/201896/intel-core-i710610u-processor-8m-cache-up-to-4-90-ghz/specifications.html
Intel. (2025g). Spesifikasi prosesor Intel® Core™ i7-1265U. Diambil kembali dari https://www.intel.co.id/content/www/id/id/products/sku/226258/intel-core-i71265u-processor-12m-cache-up-to-4-80-ghz/specifications.html
Mulyadi, R., Delvina, E. P., Octavia, L. I., & Tantri, A. P. (2024). Analisis performansi antar Generasi CPU Intel Core i5-1035G1 dan Intel Core i5-7200U. Smart Comp: Jurnalnya Orang Pintar Komputer, 262-266.
Prasetyo, A., Nugroho, R., & Lestari, D. (2021). Comparative Performance Analysis of Intel Core i5 8th and 10th Generation CPUs Using Geekbench and Cinebench Benchmarks. Jurnal Teknologi Komputer dan Sistem Informasi, 110–117.
Rauber, T., Rünger, G., & Stachowski, M. (2018). Performance and Energy Metrics for Multi-Threaded Applications on DVFS Processors. Sustainable Computing: Informatics and Systems, 17, 55–68.
Software, P. (2025). PerformanceTest FAQ - Understanding Your Results. Diambil kembali dari https://www.passmark.com/support/performancetest_faq/understanding-results.php
Stallings, W. (2019). Computer Organization and Architecture - Designing for Performance. 11th ed. New York.
Wang, Z., Huang, H., Zhang, J., & Alonso, G. (2020). Shuhai: Benchmarking High Bandwidth Memory on FPGAs. In IEEE International Symposium on Field-Programmable Custom Computing Machines, 111–119.
Wijaya, R. (2023). Benchmark Analysis of 11th vs 12th Generation Intel Core i5 Processors in Rendering Workloads. Jurnal Informatika dan Sains Komputer, 89–96.
Winarto, W. (2021). Apa perbedaan prosesor i3, i5, dan i7? Diambil kembali dari https://id.quora.com/Apa-perbedaan-prosesor-i3-i5-dan-i7
