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  • AMD Unveils World’s First Dual 3D V-Cache CPU: The Ryzen 9 9950X3D2 with 208 MB Cache and 200W TDP

    AMD has officially launched its latest processor, the AMD Ryzen 9 9950X3D2 Dual Edition. Rumors regarding this model have been circulating since last year, and the company has finally confirmed its existence.

    The standout feature of the AMD Ryzen 9 9950X3D2 is its dual-chiplet design, utilizing AMD’s 3D V-Cache technology. According to the company, this marks the debut of the world’s first desktop processor of its kind.

    The AMD Ryzen 9 9950X3D2 Dual Edition will hit the market on April 22nd, though its pricing remains undisclosed at the moment.

    This new processor is built on the Zen 5 architecture and manufactured using a 4nm process. It is intended for use with the AM5 platform. The processor boasts a total of 16 computing cores, supporting 32 threads, and features a combined cache of 208 MB—the largest ever seen in the history of Ryzen chips. The cache includes 1280 KB of L1, 16 MB of L2, and a substantial 192 MB of L3. The cores operate at a base frequency of 4.3 GHz, with a Boost frequency of up to 5.6 GHz, and the processor has a TDP rating of 200W.

    Regarding availability, AMD will offer the Ryzen 7 9850X3D bundled with memory and a cooler for $1000.

    According to AMD, the new Ryzen 9 9950X3D2 delivers a 5-10% performance increase over the Ryzen 9 9950X3D in creative tasks, such as DaVinci Resolve and Blender, as well as during large-scale code compilations like Unreal Engine and Chromium. Moreover, the increased cache size is expected to enhance gaming performance.

    What are your thoughts on this article? How do you feel about it? Fantastic, it’s alright, unbelievable, annoyed, or frustrated!

  • Apple Unveils M5 Pro and M5 Max: Advanced Processors for MacBook Pro with 18-Core CPU and Enhanced Performance

    Apple has launched its latest flagship processors, the M5 Pro and M5 Max, designed specifically for professional laptops. These chips are built on Apple’s new in-house developed Fusion architecture.

    The Apple M5 Pro processor is aimed at professionals working in data modeling, audio post-production, and STEM fields. It features an 18-core CPU coupled with a GPU that can scale up to 20 cores, each integrated with a Neural Accelerator. The chip supports up to 64 GB of unified memory with a bandwidth of up to 307 GB/s.

    The GPU’s peak computational power for AI tasks has increased over fourfold compared to the M4 Pro and more than sixfold compared to the M1 Pro. Graphics performance has seen a 20% improvement over the M4 Pro and is 2.2 times better than the M1 Pro. Ray tracing applications exhibit performance gains of up to 35%.

    The Apple M5 Max chip is tailored for 3D animators, developers, and AI researchers. It includes the same 18-core CPU but features a GPU that can scale to 40 cores—twice that of the M5 Pro. The CPU’s multi-threaded performance is 15% higher than that of the M4 Max.

    Both chips incorporate a faster 16-core Neural Engine with enhanced memory bandwidth capabilities for Apple Intelligence functions. Additionally, a new Media Engine is integrated, offering hardware acceleration for H.264, HEVC, AV1 decoding, and ProRes encoding/decoding.

    Apple has introduced Memory Integrity Enforcement—a continuously active memory integrity protection feature that does not compromise performance. Each Thunderbolt 5 port operates via a dedicated on-chip controller.

    The chip supports up to 128 GB of unified memory with a bandwidth reaching 614 GB/s, which is essential for handling complex scenes, large datasets, and generating more tokens in large language models. The GPU’s peak AI performance exceeds the previous generation by more than fourfold and surpasses the M1 Max by more than six times. Graphics performance gains up to 20% over the M4 Max and ray tracing tasks see up to a 30% increase.

    The new M5 Pro and M5 Max processors integrate two third-generation dies within a single system-on-chip (SoC), manufactured using a 3-nm process. Apple employs advanced packaging technology for high bandwidth and low latency. The SoC includes a new CPU, scalable GPU, Media Engine, unified memory controller, Neural Engine, and Thunderbolt 5 support module.

    Both chips feature 18 computational cores: 6 super cores and 12 performance cores. The super cores offer high single-thread performance with enhanced bandwidth, a new cache hierarchy, and improved branch prediction. The performance cores are optimized for energy-efficient multi-threaded tasks. As a result, the M5 Pro and M5 Max deliver up to 2.5 times higher multi-thread performance compared to the M1 Pro and M1 Max, with a 30% performance boost in professional tasks over the M4 Pro/Max.

    The new Apple iPad Air, starting at $599, comes equipped with the M4 chip, 12 GB RAM, and Wi-Fi 7.

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