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28
Februariruary 2026

Chiplet Architecture Revolution: AMD's Response to AI Computing Demands

  • 29 tayangan
  • 28 Februari 2026
Chiplet Architecture Revolution: AMD's Response to AI Computing Demands AMD revolutionizes chip design through chiplet architecture as artificial intelligence demands reshape computational requirements. Traditional monolithic approaches fail under AI workload pressure, prompting industry shift toward modular, interconnected systems.

Breaking Traditional Chip Design Paradigms

Historical Hardware Constraints in AI Development

Early AI development faced computational barriers. Hardware limitations prevented complex algorithm execution1. The challenge wasn't purely technical. Understanding cognitive processes preceded simulation requirements2.

AI effectiveness emerged when processing power matched algorithmic needs. The reason AI is somewhat effective today is because hardware finally became powerful enough to support the amount of calculations needed3. Years of theoretical development preceded practical implementation.

Computing system size correlates with AI workload expectations4. Amazon's recommendation engines require massive infrastructure. Smartphones lack sufficient power. Orders of magnitude separate consumer devices from data centers.

Artikel akan dilanjutkan setelah pembaca melihat 5 judul artikel dari 81 artikel tentang Artificial Intelligence yang mungkin menarik minat Anda:

AMD's Chiplet Strategy for AI Workloads

Traditional chip manufacturing crumbles under AI pressure. AMD recognized this, developing chiplet solutions. The old playbook no longer works5. AI reshapes semiconductor design. AMD rethinks CPUs, GPUs, and interconnects.

Chiplet architecture offers modularity. Individual components optimize for specific tasks. Memory chiplets handle data movement. Processing chiplets execute computations. This enables targeted improvements. Manufacturing yields improve. Costs decrease.

The approach mirrors distributed AI architectures. Applications vary in size and complexity6. Customer systems run on servers. Consumer applications distribute across networks. Chiplets apply similar principles at silicon level.

Artikel akan dilanjutkan setelah pembaca melihat 5 judul artikel dari 81 artikel tentang Artificial Intelligence yang mungkin menarik minat Anda:

Computational Infrastructure for Modern AI

Scaling Requirements Across Application Domains

AI systems span enormous computational ranges. Embedded chips in consumer devices represent one extreme. Data centers processing global information form the other7. Platform diversity reflects these requirements.

Smartphones work for certain applications. Desktop computers handle more demanding tasks. The computing system can be anything with a chip in it8. But sophisticated AI demands substantial resources. Complex data enables deeper insights but requires greater manipulation9.

Network latency introduces critical trade-offs. Centralized systems offer comprehensive knowledge. Distributed architectures reduce response times. Network connections give you access to large online knowledge bases but burden you in time10. Architects balance competing requirements constantly.

Artikel akan dilanjutkan setelah pembaca melihat 5 judul artikel dari 81 artikel tentang Artificial Intelligence yang mungkin menarik minat Anda:

Hardware-Algorithm Convergence Enabling Deep Learning

Deep learning success stems from convergence. Powerful hardware, sophisticated algorithms, and massive datasets aligned11. Google, Facebook, and Amazon invested heavily. Digitalization generated data volumes. Algorithms matured. Hardware caught up.

Historical efforts failed because understanding lagged. The biggest problem was we don't understand how the human mind works well enough to create simulations12. The Wright Brothers succeeded through aerodynamics13. Process comprehension enables simulation.

Contemporary systems adopt distributed architectures. Load balances between edge devices and servers14. Business analytics rely on server applications. Consumer searches access web interfaces on farms. Localized databases offer speed but sacrifice detail15.

Artikel akan dilanjutkan setelah pembaca melihat 5 judul artikel dari 81 artikel tentang Artificial Intelligence yang mungkin menarik minat Anda:

Daftar Pustaka

  1. Santoso, J. T., Sholikan, M., & Caroline, M. (2021). Kecerdasan buatan (Artificial intelligence). Universitas Sains & Teknologi Komputer, p. 8
  2. Santoso et al. (2021), op. cit., p. 8
  3. Santoso et al. (2021), ibid.
  4. Santoso et al. (2021), loc. cit., p. 12
  5. MSN (2025, December 28). AI broke the old chip playbook. AMD is writing a new one. Retrieved from https://www.msn.com/en-in/money/technology/ai-broke-the-old-chip-playbook-amd-is-writing-a-new-one/ar-AA1Tc38u
  6. Santoso et al. (2021), op. cit., p. 12
  7. Santoso et al. (2021), ibid.
  8. Santoso et al. (2021), loc. cit., p. 12
  9. Santoso et al. (2021), ibid.
  10. Santoso et al. (2021), ibid.
  11. Santoso et al. (2021), op. cit., p. 9
  12. Santoso et al. (2021), loc. cit., p. 8
  13. Santoso et al. (2021), loc. cit., p. 5
  14. Santoso et al. (2021), op. cit., p. 12
  15. Santoso et al. (2021), ibid.
PROFIL PENULIS
Swante Adi Krisna
Penggemar musik Ska, Reggae dan Rocksteady sejak 2004. Gooner sejak 1998. Blogger dan SEO spesialis paruh waktu sejak 2014. Perancang Grafis otodidak sejak 2001. Pemrogram Website otodidak sejak 2003. Tukang Kayu otodidak sejak 2024. Sarjana Hukum Pidana dari Universitas Negeri di Surakarta, Jawa Tengah, Indonesia. Magister Hukum Pidana dalam bidang kejahatan dunia maya dari Universitas Swasta di Surakarta, Jawa Tengah, Indonesia. Magister Kenotariatan dalam bidang hukum teknologi, khususnya cybernotary dari Universitas Negeri di Surakarta, Jawa Tengah, Indonesia. Bagian dari Keluarga Kementerian Pertahanan Republik Indonesia.