Intel Core i5-1340P

The Intel Core i5-1340P, part of the Raptor Lake-P generation, delivers a balanced mix of efficiency and performance for mid-tier laptops and ultrabooks. With 12 cores (4 performance and 8 efficient) and 16 threads built on a 10 nm process, this processor is engineered to handle multitasking scenarios with ease. Its base clock of 1.90 GHz and a turbo boost up to 4.60 GHz ensure responsive performance during both sustained and burst workloads. The 12 MB of shared L3 cache enhances data throughput, contributing to smoother application launches and context switching. Designed with a 28W TDP, the i5-1340P strikes a favorable balance between power consumption and thermal output, making it ideal for thin-and-light form factors where cooling headroom is limited. Real-world performance reflects this balance, with users experiencing snappy responsiveness in everyday computing tasks such as web browsing, office productivity, media playback, and light content creation. While not intended to rival high-end desktop chips, the 1340P provides a solid foundation for users who demand reliability without excessive power draw. Its integration into the BGA 1744 socket means it’s soldered directly onto the motherboard, limiting upgradeability but enabling compact system designs. Overall, the i5-1340P proves itself a dependable performer in its targeted mobile computing segment.

From a workstation performance perspective, the Intel Core i5-1340P holds its ground in entry-level to mid-range professional environments. The benchmark results 15,947 in Cinebench R23 multicore and 6,697 in R20 multicore demonstrate competent throughput for tasks like photo editing, video transcoding, and software development on moderate project scales. Single-core performance, clocking in at 2,251 (R23) and 945 (R20), ensures quick responsiveness in applications that rely heavily on per-core speed, such as CAD tools or integrated development environments. While heavy 3D rendering or large-scale data analysis may expose its limitations compared to H-series or desktop counterparts, the chip manages well in day-to-day professional workflows. The 16 threads allow for efficient parallel processing, beneficial when running virtual machines or background services alongside primary applications. Thermal efficiency, thanks to the 28W TDP, enables sustained performance in fanless or low-profile cooling systems. Workstation users requiring a balance between battery life and processing capability will find the 1340P a sensible choice. Its BGA 1744 integration means system builders must select the processor at the point of purchase, emphasizing the need for forward-looking configuration choices. This mobile processor, though not extreme in any dimension, provides a measured uplift over previous-generation i5 offerings, particularly in multi-threaded application support.

When evaluating price-to-performance, the Intel Core i5-1340P, launched at a $353 manufacturer price point, occupies a competitive niche in the mid-tier laptop market. Given its benchmark scores and architectural improvements over prior P-series chips, the value proposition becomes clear for OEMs and users seeking a balance between cost and capability. Systems equipped with this processor often retail in the $700 $1,000 range, offering solid performance without the premium pricing of H-series or i7/i9 SKUs. The 1340P outperforms many previous-gen i5 and even some older i7 mobile CPUs in multi-threaded workloads, enhancing its appeal in budget-conscious professional and educational environments. While dedicated creators or power users might opt for higher-tier silicon, the performance-per-dollar metric of the i5-1340P remains compelling for mainstream adopters. The absence of overclocking and locked TDP adjustments limits fine-tuning, but for most users, the out-of-the-box behavior is more than sufficient. Its efficiency-oriented design also contributes to longer battery life, indirectly improving value by reducing the need for constant charging. In a market where mobile performance often comes at a steep cost, the i5-1340P stands out as a pragmatically engineered solution. The Raptor Lake-P architecture’s enhancements in IPC and memory bandwidth further bolster its standing in the value spectrum. Users prioritizing longevity and adequate headroom for future software demands will find the investment justified.

Compatibility considerations for the Intel Core i5-1340P are primarily defined by its BGA 1744 socket and system-on-package integration, which prevents user-upgradeability. This design choice emphasizes the importance of selecting the correct configuration at purchase, as the processor cannot be swapped post-manufacture. Systems built around this chip typically support DDR5 or LPDDR5 memory, PCIe Gen 4 for fast storage and peripherals, and modern connectivity standards like Thunderbolt 4 and Wi-Fi 6E. The 10 nm process enables dense integration of CPU, GPU, and I/O components, but also means thermal solutions must be carefully engineered to maintain performance under load. OEMs must balance cooling design with form factor constraints, especially in ultraportable devices where the 28W TDP can still generate noticeable heat during sustained workloads. BIOS support and chipset pairing (usually with Intel’s Panther Point or later mobile chipsets) also influence overall system stability and feature availability. Users should verify system specifications thoroughly, as the i5-1340P’s capabilities can be bottlenecked by inadequate RAM or slow storage. Despite these constraints, the processor's widespread adoption in business and consumer laptops speaks to its versatile compatibility within modern mobile platforms. The Intel Core i5-1340P, also known as the 13th-gen Raptor Lake-P i5, continues to be a reliable option for users who prioritize integration, efficiency, and balanced performance in a compact footprint.