Qualcomm Unveils Groundbreaking Snapdragon X Elite Laptop Processor to Challenge Intel and Apple


In a strategic move to break into the personal computer market, Qualcomm has officially launched the Snapdragon X Elite, a game-changing laptop processor designed to outperform its competitors, Intel and Apple. Leveraging its Oryon CPU core, Qualcomm boldly claims that the Snapdragon X Elite will double the performance of popular 13th-gen Core chips from AMD and Intel. With ambitions to revolutionize the market, Qualcomm’s latest offering signifies its determination to establish Windows on Arm PCs as formidable competitors to conventional X86 PCs. This article delves deeper into the details, advancements, and implications of Qualcomm’s Snapdragon X Elite processor.

1. Snapdragon X Elite: The Flagship Platform Reimagining Performance

Qualcomm’s Snapdragon X Elite is the flagship platform of the Snapdragon X family, powered by the cutting-edge Oryon CPU core, and promises unmatched performance. This marks Qualcomm’s renewed attempt, fueled by the acquisition of chip designer Nuvia, to deliver superpowered Arm chips that can live up to their potential. By doubling the performance of 13th-gen Core chips from established competitors, Qualcomm seeks to position Windows on Arm PCs as a force to be reckoned with in the PC market.

2. Ambitious Plans for Expansion: From PCs to “Extended Reality”

While the Snapdragon X Elite’s initial focus will be on PCs, Qualcomm envisions its Oryon CPU core finding applications in a diverse range of devices. Qualcomm CEO Cristiano Amon stated that the new processor will subsequently be integrated into smartphones, cars, “extended reality” devices, and more. This move highlights Qualcomm’s intention to expand its market reach and revolutionize multiple industries by harnessing the power of the Snapdragon X Elite.

3. Oryon’s Technological Advancements: The 4nm Process Node

At the heart of the Snapdragon X Elite lies the Oryon CPU core. Manufactured on a 4nm process node, the Oryon CPU core surpasses Intel’s 4 process node utilized in its Meteor Lake. Although the two process technologies are not directly comparable, Qualcomm’s choice of the 4nm process node signifies its commitment to pushing technological boundaries and achieving optimal performance gains.

4. A Shift in Strategy: Qualcomm Adopts AMD’s Path

In a curious twist, Qualcomm appears to have adopted AMD’s approach to multi-cluster core architecture, departing from the traditional prime, performance, and efficiency core design. As Intel embraces performance and efficiency cores, Qualcomm is taking AMD’s path, deploying a tri-cluster design within the Snapdragon X Elite. This strategic shift reflects Qualcomm’s determination to stay ahead of the curve and embrace innovative approaches to deliver enhanced computing experiences.

5. Powerful Core Configuration: A Closer Look at the Snapdragon X Elite

The Snapdragon X Elite boasts an impressive core configuration comprising twelve cores, all operating at 3.8GHz. To further augment performance, one or two of these cores have the ability to turbo boost up to 4.3GHz, a common strategy in the PC market. Accompanying these powerful cores is a 64-bit Oryon CPU paired with 42MB of total cache and a memory controller capable of accessing eight channels of LPDDR5x memory, offering a total capacity of 64GB with a memory bandwidth of 130GBps.


Qualcomm’s bold entry into the PC market has taken a significant leap forward with the introduction of the Snapdragon X Elite. This revolutionary processor, powered by the Oryon CPU core, promises to outperform rival products from Intel and Apple, setting the stage for Windows on Arm PCs to disrupt the conventional X86 PC market. With ambitious plans for expansion into various industries, Qualcomm’s Snapdragon X Elite exemplifies the company’s determination to redefine the boundaries of computing performance and drive innovation in the tech industry. As we eagerly await the mid-2024 launch of Windows on Arm PCs featuring the Snapdragon X Elite, the future of computing has never looked more promising.

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