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LaunchedCore Processors Series 2 (Bartlett Lake-S)

Intel · Core 5

Intel Core 5 213PE

Eight P-cores, 65 W, and PCIe 5.0 on LGA1700: a predictable workhorse for edge appliances and small workstations.

Full SpecificationsPerformance
Industrial PCs and edge gatewaysKiosks and digital signageLight workstations and POS systemsLab and measurement rigsGeneral-purpose office PCs with ECC

Cores / Threads

8/ 16

Base / Boost

2.7/ 5.2 GHz

PCIe Lanes

20

L3 Cache

24MB

TDP

65W

Socket

FCLGA1700 (Intel Socket 1700)

Verdict

7.8/ 10

78

Quick Verdict

A focused embedded SKU that trades enthusiast features for long-term stability and platform compatibility. The uniform eight P-core design, ECC support, and 65 W base power make it attractive for edge and small workstation builds, particularly where LGA1700 infrastructure already exists.

Best for:Industrial PCs and edge gatewaysKiosks and digital signageLight workstations and POS systemsLab and measurement rigsGeneral-purpose office PCs with ECC

Overview

Launch

2026

Status

Launched

Generation

Core Processors Series 2 (Bartlett Lake-S)

Market

Embedded/Edge (Desktop form-factor)

About this CPU

An 8-core, 16-thread Bartlett Lake embedded processor on LGA1700 with UHD Graphics 730, DDR4/DDR5 dual-channel memory with ECC, PCIe 5.0 from the CPU, and a 65 W base power target aimed at edge and embedded platforms that benefit from long-life availability and stable supply.

The Core 5 213PE offers eight P-cores at 2.7 GHz base and up to 5.2 GHz single-core boost, with 24 MB of shared L3 cache, dual-channel DDR5 up to 4800 MT/s or DDR4 up to 3200 MT/s (ECC supported), and 20 PCIe lanes from the CPU (5.

0 and 4.0). It uses the familiar LGA1700 socket and is compatible with embedded chipsets such as W680, R680E, and Q670E, making it a practical path to upgrade or repurpose existing 600-series boards for edge and industrial uses.

Specifications

ArchitectureBartlett Lake-S (P-core only, Redwood Cove-derived cores)
Manufacturing ProcessIntel 7 (10 nm-class)
Cores / Threads8 / 16
Base Clock2.7 GHz
Boost Clock5.2 GHz
L3 Cache24 MB
TDP65 W
SocketFCLGA1700 (Intel Socket 1700)
Memory TypeDDR5 and DDR4 (ECC supported)
Memory SpeedDDR5 up to 4800 MT/s; DDR4 up to 3200 MT/s
Memory ChannelsDual-Channel (2)
Max Memory192 GB
PCIe Version / LanesPCIe 5.0 & 4.0 × 20
Integrated GraphicsYes
Dual-Channel20 PCIe Lanes
Target Audience
GamersStreamersContent CreatorsDevelopersWorkstation UsersOffice UsersStudents

Performance

Productivity
N/A

Eight P-cores and 16 threads at up to 5.2 GHz provide solid performance for compile jobs, databases, and multi-tab workflows; the uniform core design avoids hybrid scheduling quirks.

Virtualization
N/A

Useful for small VM farms in homelabs or edge nodes where ECC memory and stable power are valued, though high VM counts will hit core limits before memory bandwidth.

Gaming
N/A

Not marketed for gaming. With only UHD 730 graphics and no enthusiast overclocking, it is adequate for casual or legacy titles at low settings but is better suited to non-gaming workloads.

Efficiency
N/A

The 65 W base power keeps idle and average consumption modest for an 8-core part, which benefits 24/7 edge deployments where power and thermal budgets are constrained.

GamingLimited
  • Integrated UHD 730 with 24 EUs is sufficient for desktop compositing and video decode, not high-fidelity gaming.
  • No unlocked multiplier limits CPU-side tuning for gaming scenarios.
  • If gaming is required, plan to use a discrete GPU; even then, newer consumer chips are typically better value for gaming.
CreatorAdequate
Light photo editingOffice and business content creationSoftware builds and testsEntry-level video editing with hardware encode/decode assistance
AI / MLBasic CPU inference only
  • Supports Intel DL Boost on CPU for INT8 inference, but lacks a discrete NPU or high-topology GPU, so AI workloads are limited to small models or batch jobs.
  • OpenVINO can leverage DL Boost for edge inference, but performance will not match NPUs or dedicated accelerators.
Industry Impact
Gaming
Minimal
Workstations
Moderate
Content Creation
Low to Moderate
Virtualization
Moderate

Architecture

Intel 7 (10 nm-class)

Process Node

Bartlett Lake

Codename

8C / 16T

Core Config

24 MB

L3 Cache

65 W

TDP

Architecture Overview

Bartlett Lake-S is a P-core-only spin of Intel’s client line, tuned for embedded and edge use cases rather than consumer gaming. It retains the LGA1700 footprint but drops E-cores to provide uniform P-core behavior and scheduling simplicity.

CPU Design

Eight P-cores based on the Redwood Cove microarchitecture with Hyper-Threading (16 threads). This homogeneous design removes hybrid scheduling complexity, which is valuable in real-time and deterministic environments. Each core has private L1 and L2 caches, and 24 MB of shared L3 cache (3 MB per core) helps reduce memory round-trips.

Memory Subsystem

Dual-channel controller supporting DDR5 up to 4800 MT/s and DDR4 up to 3200 MT/s, with ECC support enabled for reliability in edge and workstation contexts. Max memory size is 192 GB, which is ample for most embedded and workstation workloads.

PCIe & I/O

The CPU provides 20 PCIe lanes (mix of 5.0 and 4.0) with configurations like x16+4 or 2x8+4. This allows a PCIe 5.0 NVMe SSD and additional cards, which is useful in edge servers that need fast storage or accelerators.

Overclocking

The multiplier is locked. Power and frequency tuning are expected to be managed by OEMs through BIOS and Intel’s embedded tuning interfaces, consistent with its embedded positioning.

Generation Comparison
Intel Core 5 211TE (10-core hybrid, 65 W, Bartlett Lake)Intel Core 5 213PE
  • Higher single-core boost (5.2 GHz) than many prior 65 W 8-core options.
  • PCIe 5.0 from the CPU, a step up from earlier embedded 600-series platforms.
  • Continued LGA1700 reuse and backward/forward chipset compatibility with W680/Q670E/R680E/H610 lines.
  • ECC support retained and explicitly enabled for both DDR5 and DDR4.

Key Highlights

Eight uniform P-cores with Hyper-Threading
All eight cores share the same architecture and clock targets, which simplifies scheduling and provides predictable throughput for steady-state workloads like control loops, data logging, and service daemons.
65 W Processor Base Power
The 65 W base power keeps cooling simple and is well-suited to always-on enclosures and fan-constrained industrial chassis.
ECC memory on a mainstream desktop platform
Supports ECC with both DDR5 and DDR4, reducing silent data corruption risk in edge servers and workstations without moving to a workstation-only platform.
PCIe 5.0 from the CPU for storage and accelerators
Up to 20 CPU PCIe lanes (5.0 & 4.0) with configurations such as 1x16+4 or 2x8+4, allowing a PCIe 5.0 NVMe SSD alongside other devices.
LGA1700 compatibility with embedded 600-series chipsets
Runs on W680, Q670E, R680E, and H610 platforms (among others), letting OEMs reuse existing board designs and BIOS maturity.
UHD Graphics 730 with four-display support
24 EUs with dynamic frequency up to 1.65 GHz and outputs for eDP 1.4b, DisplayPort 1.4a, and HDMI 2.1; supports up to four displays.
Strengths
  • Eight uniform P-cores and 16 threads with up to 5.2 GHz boost.
  • 65 W base power enables compact and quiet embedded designs.
  • ECC memory support on both DDR5 and DDR4 increases reliability for edge and workstation uses.
  • PCIe 5.0 from the CPU with 20 lanes supports fast NVMe and expansion cards.
  • LGA1700 compatibility allows reuse of existing 600-series embedded boards and coolers.
  • Intel UHD 730 iGPU with four-display support (eDP, DP, HDMI).
  • Long-life embedded focus improves supply stability for OEMs.
Weaknesses
  • No integrated NPU; AI workloads rely solely on CPU and iGPU.
  • Locked multiplier limits enthusiast tuning.
  • iGPU (UHD 730) is not suitable for modern AAA gaming.
  • Memory speeds are conservative (DDR5-4800 / DDR4-3200) by current desktop standards.
  • Embedded positioning means consumer motherboard support may be limited outside industrial vendors.

History

Launch Date
2026
Status
Launched
Generation
Core Processors Series 2 (Bartlett Lake-S)
Market
Embedded/Edge (Desktop form-factor)
The Story

Bartlett Lake represents Intel’s effort to extend the LGA1700 ecosystem into embedded and edge segments long after consumer desktop transitions to newer sockets. Rather than introducing a novel microarchitecture, Bartlett Lake repurposes proven P-core designs in a P-core-only configuration to deliver predictable performance and straightforward software behavior in environments where long-term stability and supply continuity matter more than headline benchmark scores. The Core 5 213PE epitomizes that philosophy: eight uniform cores, ECC memory, modest 65 W base power, and support for both DDR4 and DDR5 give OEMs a flexible migration path from older 12th–14th-gen platforms without retooling.

Intel’s Embedded World 2026 materials explicitly pitch Bartlett Lake as part of the 'Core Processors Series 2' for edge and embedded use, highlighting power-efficient P-core designs and extended lifecycle support.

Improvements over Previous Generation

  • Higher single-core boost (5.2 GHz) than many prior 65 W 8-core options.
  • PCIe 5.0 from the CPU, a step up from earlier embedded 600-series platforms.
  • Continued LGA1700 reuse and backward/forward chipset compatibility with W680/Q670E/R680E/H610 lines.
  • ECC support retained and explicitly enabled for both DDR5 and DDR4.

Alternatives & Competitors

Intel Core 5 211TE (10-core hybrid, 65 W, Bartlett Lake)
More cores if your workload scales well with threads, though it uses a hybrid P+E design.
Intel Core 5 223PE (8-core, 65 W, Bartlett Lake, UHD 770)
Slightly higher boost and better iGPU (UHD 770) if you need stronger display or transcode performance.
AMD Ryzen Embedded 8840U
Competing 8-core embedded part with strong iGPU and AI engine, useful if your software stack favors AMD.
Intel Core i5-14500
More cores (6P+8E) for mixed workloads if you can forgo embedded-specific guarantees and ECC on DDR5.
Intel Core i5-13500
Cost-effective 14-core option on the same LGA1700 platform with DDR5/ECC support and mature BIOS.
Direct Competitors
AMD Ryzen Embedded 8840UIntel Core 5 223PEIntel Core i5-14500AMD Ryzen 7 8700GIntel Core i5-13500

Should You Buy It?

Recommended for the right buyer

Edge appliance, industrial PC, or small workstation build that benefits from ECC, PCIe 5.0 storage, and LGA1700 platform reuse.

Avoid if…

  • You want enthusiast-class gaming performance.
  • You need an unlocked multiplier for overclocking.
  • You require a consumer-focused feature set with frequent BIOS gaming tweaks.

Use Cases

Industrial control and automation PCs
Very Good
Edge gateways and IoT appliances
Very Good
Kiosks and digital signage controllers
Very Good
Light workstation tasks (CAD 2D, light simulation)
Good
Software development and CI runners
Good
General office and productivity
Very Good

Interesting Facts

Bartlett Lake-S is a P-core-only variant that keeps the LGA1700 socket alive for embedded platforms while Intel’s consumer desktop moves to LGA1851 with Arrow Lake.

Intel officially lists this SKU under 'Embedded' vertical segment and marks 'Embedded Options Available: Yes', underlining its long-life intent.

Intel ARK explicitly labels the lithography as 'Intel 7' (10 nm-class), not '10 nm', aligning with Intel’s naming convention for this process node.

The ordering page shows two spec codes for the same part (Q9KX and SA4QG), which can happen with tray vs. OEM distribution or stepping-adjacent tracking.

With 20 CPU PCIe lanes (5.0 & 4.0), 213PE can feed a PCIe 5.0 x4 NVMe and a PCIe 4.0 x16 device simultaneously via the 1x16+4 configuration.

The UHD 730 iGPU’s 1.65 GHz max dynamic frequency is modest compared to UHD 770 variants, reflecting the power and cost constraints of embedded designs.

Intel’s Embedded World 2026 materials list an all-core P-core turbo of 4.6 GHz for 213PE, useful to estimate sustained multi-thread performance.

The processor’s Recommended Customer Price is $221, positioning it as a mid-range embedded part in Intel’s catalog.

The -PE suffix in Bartlett Lake denotes 65 W base power P-core-only SKUs with embedded and ECC focus, distinct from -PQ (125 W) and -PTE (45 W) tiers.

Despite being a 2026 product, the Core 5 213PE reuses a chipset ecosystem originally launched with 12th-gen CPUs, showcasing Intel’s long platform support in embedded.

People Also Ask

What socket does the Intel Core 5 213PE use?

It uses FCLGA1700 (Intel Socket 1700), the same physical socket as 12th–14th-gen desktop CPUs.

Does the Core 5 213PE support ECC memory?

Yes. Intel ARK lists ECC Memory Supported: Yes for both DDR5 and DDR4 configurations.

Is the Intel Core 5 213PE unlocked for overclocking?

No. It has a locked multiplier, consistent with its embedded and edge positioning.

What integrated graphics does the Core 5 213PE have?

Intel UHD Graphics 730 with 24 EUs, 300 MHz base and up to 1.65 GHz dynamic frequency, supporting up to four displays.

Which chipsets are compatible with Core 5 213PE?

Intel lists compatibility with W680 and H610 on their compatible-products pages, and Q670E on its page; R680E/H610E are supported by industrial vendors on LGA1700.

What is the all-core turbo frequency of the Core 5 213PE?

Intel’s Embedded World 2026 press materials list the P-core all-core turbo as 4.6 GHz, though ARK does not publish this field.

Can I use DDR5 and DDR4 together on the Core 5 213PE?

No. You must choose either DDR5 or DDR4 for the entire system; the memory controller does not mix types.

Is the Core 5 213PE a consumer or embedded part?

Intel ARK lists its vertical segment as Embedded and notes Embedded Options Available: Yes, so it is primarily targeted at embedded and edge use cases.

What is the maximum memory size supported by Core 5 213PE?

Up to 192 GB depending on the memory type (DDR5 or DDR4) and the motherboard’s DIMM slots and density.

Does the Core 5 213PE have an NPU for AI?

No. It relies on CPU-based DL Boost for AI inference; there is no discrete NPU as found in Core Ultra ‘Series 2’ client chips.

Frequently Asked Questions

What is the recommended customer price for Intel Core 5 213PE?

Intel ARK lists $221.00 as the Recommended Customer Price.

Does Core 5 213PE support PCIe 5.0?

Yes. Intel ARK shows PCI Express Revision 5.0 & 4.0 with up to 20 CPU PCIe lanes.

What is the TDP (Processor Base Power) of Core 5 213PE?

65 W, as listed in Intel ARK’s CPU Specifications.

What process node is Core 5 213PE built on?

Intel 7 (10 nm-class), according to Intel ARK.

How many cores and threads does Core 5 213PE have?

8 cores and 16 threads, all P-cores (no E-cores).

Can I run four displays from the Core 5 213PE’s iGPU?

Yes. Intel ARK lists '# of Displays Supported: 4' with eDP 1.4b, DP 1.4a, and HDMI 2.1 outputs.

Is there a successor to Core 5 213PE?

Intel has not publicly announced a direct successor as of mid-2026; the Bartlett Lake embedded line continues with other P-core-only SKUs.

Will Core 5 213PE work in a consumer Z690 or Z790 motherboard?

Physical compatibility is likely (LGA1700), but official support depends on the motherboard vendor’s BIOS. Since this is an embedded SKU, consumer board support is not guaranteed.

What is the CPU’s max turbo frequency?

5.2 GHz, per Intel ARK (Max Turbo Frequency).

Does Core 5 213PE support Intel vPro?

Intel ARK does not list Intel vPro for this SKU; many -PE variants omit vPro compared to -PQ parts.