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LaunchedIntel Core Series 2 (Bartlett Lake-S)

Intel · Core 7

Intel Core 7 253PE

10 P‑cores, 20 threads and UHD 770 graphics on LGA1700 for edge and embedded workloads.

Full SpecificationsPerformance
Edge computing appliancesIndustrial controllers and gatewaysEmbedded workstations with ECC memoryMulti‑hosting and virtualization at the edgeDigital signage and kiosk systems

Cores / Threads

10/ 20

Base / Boost

2.5/ 5.5 GHz

PCIe Lanes

20

L3 Cache

33MB

TDP

65W

Socket

FCLGA1700 (LGA1700)

Verdict

8/ 10

80

Quick Verdict

A capable, all‑P‑core Bartlett Lake part that brings 10 performance cores and 20 threads to LGA1700 for embedded use. Strong multi‑thread throughput and modern I/O (PCIe 5.0, DDR5 with ECC) make it attractive for edge servers and industrial PCs, though it is not sold at retail and the platform is mature.

Best for:Edge computing appliancesIndustrial controllers and gatewaysEmbedded workstations with ECC memoryMulti‑hosting and virtualization at the edgeDigital signage and kiosk systems

Overview

Launch

2026

Status

Launched

Generation

Intel Core Series 2 (Bartlett Lake-S)

Market

Embedded/Industrial (Workstation-adjacent)

About this CPU

The Intel Core 7 253PE is a 10-core, 20-thread, P‑core‑only Bartlett Lake processor aimed at embedded and industrial applications on the LGA1700 platform, with UHD Graphics 770, dual-channel DDR4/DDR5 (ECC), and PCIe 5.0 x16 + 4 lanes.

The Core 7 253PE targets embedded and industrial segments but uses the familiar LGA1700 socket. It features 10 performance cores (no E‑cores) with Hyper‑Threading, 33 MB of L3 cache, a 2.5 GHz base and 5.

5 GHz single‑core boost (5.1 GHz all‑core), and Intel UHD Graphics 770 with 32 EUs. Memory support includes dual‑channel DDR5 up to 5600 MT/s and DDR4 up to 3200 MT/s, with ECC.

It provides up to 16 PCIe 5.0 lanes plus 4 PCIe 4.0 lanes from the CPU and is designed for long‑life embedded deployments with a 65 W base power and Intel 7 process.

Specifications

ArchitectureBartlett Lake-S (P‑core‑only; Raptor Cove derived)
Manufacturing ProcessIntel 7
Cores / Threads10 / 20
Base Clock2.5 GHz
Boost Clock5.5 GHz
L3 Cache33 MB
TDP65 W
SocketFCLGA1700 (LGA1700)
Memory TypeDDR5 & DDR4
Memory SpeedDDR5 up to 5600 MT/s; DDR4 up to 3200 MT/s
Memory ChannelsDual-Channel (2)
Max Memory192 GB
PCIe Version / LanesPCIe 5.0 & 4.0 (CPU); DMI 4.0 x8 to PCH × 20
Integrated GraphicsYes
Dual-Channel20 PCIe Lanes
Target Audience
GamersStreamersContent CreatorsDevelopersWorkstation UsersOffice UsersStudents

Performance

Productivity
N/A

With 10 P‑cores and 20 threads, multi‑threaded throughput is strong for its 65 W class; early PassMark data show multi‑thread scores around 31.8k, ahead of the 14‑core i5‑14500 in some MT workloads.

Virtualization
N/A

VT‑x supported on Intel ARK; 20 threads and 33 MB L3 make it suitable for several VMs in embedded edge servers, though memory capacity depends on the platform.

Gaming
N/A

Not marketed for gaming; UHD 770 is adequate for light or legacy titles and multi‑display signage, but a discrete GPU is needed for serious gaming workloads.

Efficiency
N/A

65 W base power with 10 P‑cores and 5.1 GHz all‑core is competitive for embedded workloads; exact MTP/PL2 not verified from official sources for this SKU.

GamingNot intended for gaming
  • UHD 770 can drive multi‑display setups and older or casual titles.
  • For modern AAA gaming, a discrete GPU is required and platform choice should consider more recent consumer sockets.
CreatorAdequate for light/medium creator tasks
Light 4K timeline editing with proxy workflowsSoftware compilation and container buildsLocal AI model training and inference (small models)
AI / MLLimited to CPU inference
  • DL Boost (VNNI) is present, so INT8 inference on CPU is supported.
  • No dedicated NPU; performance depends on clock speed and memory bandwidth.
Industry Impact
Gaming
Negligible
Workstations
Moderate
Content Creation
Low to Moderate
Virtualization
Moderate

Architecture

Intel 7

Process Node

Bartlett Lake

Codename

10C / 20T

Core Config

33 MB

L3 Cache

65 W

TDP

Architecture Overview

Bartlett Lake-S (P‑core‑only) is based on the Intel 7 process and reuses Raptor Cove P‑cores, but without E‑cores, targeting deterministic and edge workloads on LGA1700.

CPU Design

10 P‑cores with Hyper‑Threading, 33 MB shared L3, no E‑cores. Each P‑core has 2 MB L2 (20 MB total). Stepping A0 in initial tray parts.

Memory Subsystem

Dual‑channel DDR5 up to 5600 MT/s and DDR4 up to 3200 MT/s; ECC supported. Max memory size 192 GB.

PCIe & I/O

Up to 20 CPU lanes: configurable as 1x16+4 or 2x8+4, with PCIe 5.0 for the primary x16 and PCIe 4.0 for the x4 DMI 4.0 x8 to chipset.

Overclocking

Unlocked status not confirmed from official sources; embedded SKUs are typically not overclockable, but user reports of booting on consumer boards exist.

Generation Comparison
Intel Core i5‑14400 (Raptor Lake Refresh, 10‑core hybrid 8P+4E)Intel Core 7 253PE
  • Moves from hybrid (8P+4E) to 10 P‑cores only, improving consistency and MT performance in embedded scenarios.
  • Higher all‑core boost (5.1 GHz) and L3 cache (33 MB vs 24 MB) compared to i5‑14400.

Key Highlights

10 P‑cores / 20 threads (no E‑cores)
All‑performance‑core layout simplifies OS scheduling for real‑time and deterministic embedded workloads, and increases per‑thread L3 cache per core.
UHD Graphics 770 with 32 EUs
Provides usable display and Quick Sync for encoding/decoding in headless or multi‑display embedded systems without a discrete GPU.
PCIe 5.0 x16 + 4 lanes from the CPU
Supports a modern NVMe SSD plus a GPU or high‑speed add‑in card, useful in edge AI and vision appliances.
Dual‑channel DDR5/DDR4 with ECC support
Enables reliable, long‑life deployments with error‑correcting memory and up to 192 GB capacity.
Embedded positioning and 10‑year lifecycle
Marketed for industrial and edge use with extended availability and embedded enablement.
Strengths
  • 10 P‑cores with HT (no E‑cores) for consistent, high per‑thread performance.
  • UHD Graphics 770 with 32 EUs and Quick Sync for encode/decode tasks.
  • PCIe 5.0 x16 + 4 lanes, enabling modern NVMe and GPU connectivity.
  • Dual‑channel DDR5/DDR4 with ECC and up to 192 GB memory.
  • 65 W base power and embedded lifecycle (10‑year availability) for industrial use.
Weaknesses
  • Embedded focus: not intended for retail desktop/gaming.
  • PL2/tau not officially listed for this specific SKU; MTP is unverified.
  • Relies on an older LGA1700 platform with limited future consumer upgrade path.
  • No dedicated NPU; AI acceleration is CPU‑only.

History

Launch Date
2026
Status
Launched
Generation
Intel Core Series 2 (Bartlett Lake-S)
Market
Embedded/Industrial (Workstation-adjacent)
The Story

Intel introduced the Bartlett Lake‑S family at Embedded World 2026 (March 9) as 'Core Series 2' processors with P‑cores, extending the LGA1700 socket for embedded and edge customers. The Core 7 253PE emerged as the 10‑core, 65 W member of this lineup, offering higher P‑core counts than prior LGA1700 desktop parts and leveraging the mature 12th/13th/14th‑gen ecosystem. Intel’s goal is to provide deterministic performance and long‑term availability for industrial applications while preserving compatibility with existing LGA1700 infrastructure and chipsets such as W680, R680E, Q670E, Q670, H610E, and H610.

Improvements over Previous Generation

  • Moves from hybrid (8P+4E) to 10 P‑cores only, improving consistency and MT performance in embedded scenarios.
  • Higher all‑core boost (5.1 GHz) and L3 cache (33 MB vs 24 MB) compared to i5‑14400.

Alternatives & Competitors

Intel Core 9 273PE
If you need more cores (12 P‑cores/24 threads) on the same embedded Bartlett Lake platform.
Intel Core 7 251E
If your workload benefits from a hybrid mix of P‑cores and E‑cores on the same platform.
AMD Ryzen 9 7950X
For higher peak multi‑thread performance on a modern AM5 desktop platform (non‑embedded).
AMD Ryzen Embedded R2314
For alternative embedded solutions with long lifecycle and different feature set.
Intel Core i5‑14600K
If you want a consumer LGA1700 CPU with P‑core heavy design and wider retail motherboard support.
Direct Competitors
AMD Ryzen Embedded 7000-seriesAMD Ryzen 9 7950XIntel Core 9 273PEIntel Core 7 251EIntel Core i7‑14700

Should You Buy It?

Recommended for the right buyer

Designing a new embedded or edge appliance on LGA1700 that needs 10 strong threads, ECC DDR5, and UHD 770 iGPU.

Avoid if…

  • Building a consumer gaming or general‑purpose desktop (look to Core 200‑series consumer parts instead).
  • Needing long‑term retail upgrade path or widespread consumer board support.
  • Requiring official, documented overclocking support.

Use Cases

Edge AI inference host
Good
Industrial controller / gateway
Excellent
Virtualization host at the edge
Very Good
Embedded workstation (CAD/EDA)
Good
Digital signage / kiosk media engine
Excellent

Interesting Facts

Bartlett Lake-S PE models bring 10 and 12 P‑cores to LGA1700, exceeding the previous max of 8 P‑cores on desktop.

Core 7 253PE was officially unveiled at Embedded World 2026 on March 9.

Despite the embedded brief, early reports show it being booted on consumer Z790 boards, reflecting its LGA1700 compatibility.

Intel positions Bartlett Lake as a bridge to future platforms for industrial customers needing to reuse existing LGA1700 infrastructure.

The 253PE carries a recommended customer price of $384 and uses FC‑LGA16A packaging with a tray ordering code CM8071506053491 and spec code SA4QE (stepping A0).

People Also Ask

Is Intel Core 7 253PE a gaming CPU?

No. It is an embedded processor with UHD 770 graphics. It can run older or light games, but it is not marketed or optimized for gaming.

Does Core 7 253PE support DDR4 and DDR5?

Yes. Intel ARK lists DDR5 up to 5600 MT/s and DDR4 up to 3200 MT/s, dual‑channel, with ECC support.

What socket does Core 7 253PE use?

FCLGA1700 (LGA1700).

Does Core 7 253PE have E‑cores?

No. It has 10 Performance cores and 0 Efficient cores.

What is the all‑core boost of Core 7 253PE?

Launch coverage lists the all‑core boost at 5.1 GHz.

Does Core 7 253PE support ECC memory?

Yes, ECC memory is supported per Intel ARK.

Can Core 7 253PE work on consumer Z690/Z790 boards?

Electrically LGA1700 is compatible, but support depends on BIOS. Intel targets embedded chipsets; user reports show some success on consumer boards, but this is not guaranteed.

What graphics does Core 7 253PE have?

Intel UHD Graphics 770 with 32 EUs, 300 MHz base and 1.65 GHz max dynamic frequency.

How many PCIe lanes does Core 7 253PE provide?

20 CPU lanes: configurable as 1x16+4 or 2x8+4; supports PCIe 5.0 and 4.0.

Is the multiplier unlocked on Core 7 253PE?

Unlocked status is not explicitly listed by Intel for this SKU. Embedded SKUs are typically locked, but confirmation from official documentation is pending.

Frequently Asked Questions

What is the recommended price of Intel Core 7 253PE?

Intel lists a recommended customer price of $384.

What is the part number and spec code for the tray version?

Ordering code CM8071506053491, spec code SA4QE, stepping A0.

Is Core 7 253PE suitable for edge AI?

Yes, with DL Boost (VNNI), 10 P‑cores, and PCIe 5.0, it is suited for CPU‑based edge inference and as a host for a discrete AI accelerator.

Does Core 7 253PE support virtualization?

Intel ARK shows VT‑x; specific virtualization features (e.g., VT‑d) should be verified in the datasheet or with the vendor.

What is the maximum memory size?

Up to 192 GB, depending on memory type and board implementation.

Does it support Intel vPro?

Intel ARK lists vPro Enterprise eligibility.

What is the GPU maximum dynamic frequency?

1.65 GHz.

How many displays can Core 7 253PE drive?

Up to 4 displays (eDP 1.4b, DP 1.4a, HDMI 2.1).

Is there a 125 W variant of Core 7 253PE?

The 253PE is listed at 65 W; the Core 7 253PQE is a separate 125 W SKU.

Which chipsets are used with Core 7 253PE?

Embedded and industrial boards pair it with W680, R680E, Q670E, Q670, H610E, H610 (vendor‑specific support). Intel W680 and R680E are common in industrial designs.