Computer-On-Module
SMARC - ADLINK Technology Inc. (ADLINK)
SMARC form factor is the only computer-on-module form factor that truly is capable of supporting both ARM and x86 designs. With 314-pins on a high speed MXM3 connector, SMARC can fully cover both typical x86 interfaces as well as typical ARM type low level signals. Using ARM SoCs opens the possibility to leverage the product ecosystem of familiar devices such as tablet computers and smart phones. Alternative low power SoCs and CPUs, such as tablet oriented x86 devices and other RISC CPUs may be used as well.
Computer on Module
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Product
SMARC® Short Size Module with Intel Atom® E3900 Series, Pentium™ N4200 or Celeron™ N3350 Processor (codename: Apollo Lake)
LEC-AL
Computer on Module
The LEC-AL Computer-On-Module (COM) combines the SMARC® 2.0 standard with the latest Intel Atom® E-Series and Pentium® and Celeron® N-series System-on-Chips (SoCs), providing ideal solutions for low power consumption and high performance requirements. The module provides the high integration, high performance, low power, and ruggedness favored by Internet- of-Things (IoT) applications such as retail transactional clients, digital signage, and in-vehicle infotainment systems. The LEC-AL module utilizes the latest Intel E-series and N-series SoCs, which are based on the Intel 64 Architecture, the new HD Graphics 500/505 engine, and a faster, 4-vector image processing unit. The SoCs are manufactured on Intel's industry-leading, tri-gate 14nm process, improving system performance by supporting more than 4 GB of both virtual and physical memory.
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SMARC Short Size Module with Rockchip PX30 Quad-Core ARM Cortex A35
LEC-PX30
Computer on Module
LEC-PX30 based on power-efficient quad-core Arm® Cortex®-A35 SoC is a low-power, low-cost, entry-level, small-sized SMARC rev 2.0 module. For applications, such as IoT controllers, IoT gateways, wearable and mobile industrial devices, basic HMI, sensor concentrators, requiring good computing performance at low power consumption (1.5W- 5W) and Linux Yocto capability, LEC-PX30 is an ideal solution.
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Product
SMARC Short Size Module with NXP i.MX 6 Multicore Arm® Cortex®-A9
LEC-iMX6R2
Computer on Module
- NXP SoC i.MX6 ARM Cortex A9 Solo, DualLite, Dual or Quad processor- Integrated 2D/3D graphics processors, 3D 1080p video processing, power management- Onboard DDR3L-1600 system memory from 512 MB to 2 GB- Supports up to 64 GB eMMC, 1x SD/MMC, 1x SATA 3Gb/s- Extreme Rugged operating temperature: -40°C to +85°C (optional)- 15 year product availability
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Product
SMARC Short Size Module with NXP i.MX 8M
LEC-iMX8M
Computer on Module
- Quad Arm® Cortex®-A53 and Cortex-M4- Cryptographic co-processor for end-to-end IOT security- Full 4K UltraHD resolution HDMI 2.0a and dual channel LVDS- Two MIPI-CSI-2 camera inputs- 2x GbE LAN (optional TSN support), USB 3.0/2.0 and OTG- Standard or rugged support: 0°C to 60°C or -40°C to 85°C- 15 year product availability
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Product
SMARC® Short Size Module with Intel® Atom™ Processor E3800 Series System-on-Chip
LEC-BTS
Computer on Module
- Single, dual or quad-core Intel® Atom™ Processor E3800 Series System-on-Chip- Up to 4 GB DDR3L at 1066/1333 MHz (non-ECC)- HDMI and LVDS- GbE, camera interface- 1x SATA 3Gb/s, 1x USB 3.0, 3x USB 2.0, max. 12x GPIO- Extreme Rugged™ operating temperature: -40°C to +85°C
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SMARC Short Size Module with Freescale i.MX6 Solo, DualLite, Dual or Quad Core Processor
LEC-iMX6
Computer on Module
The SMARC ("Smart Mobility ARChitecture") is a versatile small form factor computer Module definition targeting applications that require low power, low costs, and high performance. The Modules will typically use ARM SOCs similar or the same as those used in many familiar devices such as tablet computers and smart phones. Alternative low power SOCs and CPUs, such as tablet oriented X86 devices and other RISC CPUs may be used as well. The Module power envelope is typically under 6W.
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Product
SMARC® Short Size Module with Intel® Pentium™ and Celeron™ Processor N3000 Series SoC (codename: Braswell)
LEC-BW
Computer on Module
The LEC-BW Computer-On-Module (COM) combines the SMARC® 1.1 standard with the Intel® Pentium® and Celeron® N-series System-on-Chip (SoC), providing an ideal solution for low power consumption and high performance requirements. The module provides the high integration, high performance, low power, and ruggedness favored by Internet-of-Things (IoT) applications such as retail transactional clients, digital signage, and in-vehicle infotainment systems.
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Product
SMARC Short Size Module with Qualcomm® QRB5165 Series octa-core SoC
LEC-RB5
Computer on Module
The ADLINK LEC-RB5 is a SMARC module powered by the Qualcomm® QRB5165 SoC with 8 Arm Cortex-A77 cores and up to 15 TOPS Qualcomm® Hexagon™ Tensor Accelerator. The module is designed for robotics and drone applications and integrates several IoT technologies in a single solution. The LEC-RB5 SMARC module provides on-device artificial intelligence (AI) capabilities, support for up to 6 cameras, and low power consumption. It is capable of powering robots and drones in consumer, enterprise, defense, industrial and logistics sectors.
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Product
SMARC Short Size Module with NXP i.MX 8M Plus
LEC-IMX8MP
Computer on Module
ADLINK LEC-IMX8MP, based on the powerful NXP i.MX8M Plus (quad core Arm Cortex-A53) processor with an optional Neural Processing Unit (NPU) operating at up to 2.3 TOPS., is the first SMARC revision 2.1 compliant module focusing on machine learning and vision, advanced multimedia, and industrial IoT with high reliability. Additionally, it supports dual Image Signal Processors and two camera inputs for an effective Vision System. The LEC-IMX8MP is suited for applications such as smart home, building, city and industry 4.0.
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SMARC Short Size Module with Intel® 6th Gen. Atom® x6000 Processors (formerly codename: Elkhart Lake)
LEC-EL
Computer on Module
The ADLINK LEC-EL is a SMARC module that supports Intel Atom® x6000 (x6425E, x6413E, x6211E, x6200FE, x6425RE) processors (formerly Elkhart Lake) with integrated Intel® UHD graphics and high speed interfaces. LEC-EL modules support up 8GB LPDDR4 memory, and are also available with rugged operating temperature range and low power envelope, making them a perfect match for mission critical fanless edge computing applications that require safety and reliability at all times.
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LEC-Starterkit with LEC-BASE 2.0 Carrier, SD Card and ATX Power Supply (without LEC Module and Cooling Solution), Optional LVDS Display
LEC-Starterkit 2.0
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The LEC-Starterkit 2.0 consists of a SMARC 2.0 compliant LEC-BASE 2.0 carrier board, data media, an AC/DC adapter, power cords and is suitable for LEC-AL, LEC-BT, LEC-BTS or LEC-BW modules.
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Product
SMARC 2.1 Reference Carrier Board with M.2 Extension
I-Pi SMARC Plus
Carrier Board
The I-Pi SMARC Plus is small (110mm x 110mm) SMARC reference carrier board based on SGeT SMARC (Smart Mobility ARChitecture) 2.1 hardware specification. Together with the SMARC short size module of your choice and off the shelf add-on cards, you can quickly emulate the functionality of your desired end product for software development and hardware verification.
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Product
SMARC Module
LEC-MTK-I1200
Computer on Module
The ADLINK LEC-MKT-I1200 is a SMARC module powered by the MediaTek MT8395 SoC with 4x Arm Cortex-A78 and 4x Cortex-A55 cores and up to 5 TOPS APU. The module incorporates a spate of IoT technologies, such as on-device artificial intelligence (AI) capabilities and support for up to 3 cameras, while delivering a low power envelope, making it the ideal solution for robotic and drone applications across various sectors, including consumer, enterprise, defense, industrial, logistics, and more.
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Product
I-Pi SMARC Development Kit based on MediaTek® Genio 1200 platform
I-Pi SMARC 1200
Software Development Kit
The I-Pi SMARC 1200 is a SMARC-based, AI and graphics-centric solution development kit powered by MediaTek® Genio 1200 (Octa-core Arm Cortex-A78 x4 + A55 x4) processor with a 5-core Arm Mali-G57 GPU for advanced 3D graphics and an integrated APU (AI Processor Unit) system delivering up to 5 TOPS.
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I-Pi SMARC Development Kit based on NXP® i.MX 8M Plus Quad Arm® Cortex-A53 Processor
I-Pi SMARC IMX8M Plus
Software Development Kit
The I-Pi SMARC IMX8M Plus is a SMARC-based smart solution development kit powered by NXP i.MX8M Plus (Quad-core Arm Cortex-A53) processor with a Neural Processing Unit (NPU) at up to 2.3 TOPS.This is the first SMARC R2.1 development kit focused on machine learning, vision, advanced multimedia, and industrial IoT with high reliability. As such, it supports dual image processors and two camera inputs for an effective Vision System, as well as applications beyond, including smart homes, building cities, and industry 4.0.
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Product
SMARC Short Size Module with NXP i.MX 8M Mini SoC
LEC-IMX8MM
Computer on Module
ADLINK LEC-IMX8MM, the first SMARC revision 2.1 compliant module offering superior power efficiency, is based on the low-power NXP i.MX 8M Mini processor (dual or quad core Arm Cortex-A53) with integrated Vivante GC NanoUltra graphics for improved processing capabilities. The LEC-IMX8MM is your ideal, cost-effective solution for various general-purpose edge and IoT applications.
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I-Pi SMARC Development Kit based on Qualcomm® Robotics RB5 Platform
I-Pi SMARC RB5
Software Development Kit
The I-Pi SMARC RB5 is a SMARC-based AIoT and robotics development kit harnessing ADLINK LEC-RB5, powered by the Qualcomm® QRB5165 SoC with Qualcomm® Kyro™ 585 octa-core CPU (8x Arm Cortex-A77), and Qualcomm® AI Engine.
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SMARC Short Size Module, Intel® Atom® X7000 Series (Amston Lake) Processors
LEC-ASL
Computer on Module
The ADLINK LEC-ASL is a SMARC module that supports 2/4/8 cores Intel® Atom® x7000RE (x7211RE, x7213RE, x7433RE, x7835RE) and x7000C (x7203C, x7405C, x7809C) Processors (formerly Amston Lake) with integrated Intel® UHD graphics and high-speed interfaces. LEC-ASL modules support up 16GB LPDDR5 memory, up to 256GB eMMC storage (build option) and are also available with rugged operating temperature range and low power envelope, making them a perfect match for mission critical fanless edge computing applications that run 24/7.
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Product
SMARC® 2.1 Short Size Module With NXP I.MX95
LEC-IMX95
Computer on Module
ADLINK LEC-IMX95, based on the powerful NXP i.MX95 (6x Arm Cortex-A55 + 1x Arm Cortex-M7 + 1x Arm Cortex-M33) processor with an integrated ISP and eIQ Neutron Neural Processing Unit (NPU) operating at up to 2 TOPS., is the latest SMARC revision 2.1 compliant module. It combines power-efficient high-performance compute, immersive Arm® Mali™-powered 3D graphics, innovative NXP NPU accelerator for machine learning, and high-speed data processing with safety and security features.
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SMARC® 2.1 Short Size Module With Intel® Core™ I3 Processors, Intel® Processors N Series And Intel® 7th Gen Atom® X7000E Processors
LEC-ALN
Computer on Module
The ADLINK LEC-ALN is a SMARC module that supports up to 8 cores Intel® Core™ i3 (i3-N305, i3-N300) Processors, Intel® Processors N Series (N97, N50) and Intel® Atom® x7000E (x7425E, x7213E, x7211E) Processors (formerly Alder Lake-N) with integrated Intel® UHD graphics and high-speed interfaces. LEC-ALN modules support up 16GB LPDDR5 memory, up to 256GB eMMC storage (build option) and are also available with rugged operating temperature range and low power envelope, making them a perfect match for mission critical fanless edge computing applications that require safety and reliability at all times.
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SMARC Short Size Module With Qualcomm® QRB5165 Series Octa-Core SoC
LEC-RB5N
Computer on Module
- Qualcomm® Kryo™ 585 CPU (8x Arm Cortex-A77 cores)- Qualcomm® Hexagon™ Tensor Accelerator (HTA) running up to 15 TOPS- 4K HDMI/MIPI DSI display, MIPI CSI cameras- 2x PCIe x2 Gen3- 2x GbE Ethernet- 2x USB 3.1/2.0 and 4x USB 2.0- GPIO/SD and UFS- 5VDC +/-5% voltage input
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I-Pi SMARC IoT Development Kit Based On Intel® 7th Gen Atom® X7433RE Quad-Core SoC
I-Pi SMARC Amston Lake
Software Development Kit
The I-Pi SMARC Amston Lake is a SMARC-based edge solution devkit powered by power-efficient Intel Atom x7433RE quad-core SoC with integrated Intel UHD graphics with 32 EUs, deep learning inference capabilities, industrial grade durability and comprehensive high-speed interfaces.
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I-Pi SMARC Development Kit Based On NXP® I.MX 95 Six-Core Arm® Cortex-A55, M7 & M33
I-Pi SMARC IMX95
Software Development Kit
The ADLINK LEC-IMX95 is a powerful and versatile SMARC module that delivers high-performance computing, graphics, machine learning, and vision capabilities for IoT and industrial applications. It is based on the NXP i.MX95 processor, which integrates six Arm Cortex-A55 cores, one Arm Cortex-M7 core, one Arm Cortex-M33 core, an Arm Mali GPU, an ISP, and an eIQ Neutron NPU that can run at up to 2 TOPS.
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Product
I-Pi SMARC Development Kit Based On Intel® 6th Gen Atom® X6425E Quad-Core SoC
I-Pi SMARC Elkhart Lake
Software Development Kit
The I-Pi SMARC Elkhart Lake is a SMARC-based edge solution development kit powered by Intel Atom x6425E quad-core SoC with integrated Intel UHD graphics and comprehensive high speed interfaces. Development-focused, this kit also supports the latest version of the Intel® Distribution of OpenVINO™ toolkit, which features more deep-learning models, higher inferencing performance, and fewer code changes, making developing ever simpler.
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Product
Industrial-Grade Intelligent Analog & Digital Interface Modular Control Box With Arduino Compatibility
I-Pi OT2IT
Interface Module
Discover the freedom of open-source innovation with ADLINK's industrial-grade I-Pi Arduino-Compatible PLC. Say goodbye to restrictive proprietary systems and embrace the vast, versatile world of the Arduino ecosystem. Accelerate your project's journey from concept to commercialization across diverse automation and control tasks. All this, while ensuring steadfast reliability, professional-grade functionality and industry-ready performance.I-Pi-OT2IT is equipped with numerous analog and digital sensors to manage different OT devices in smart factories. It features 8x Digital inputs, 11x Digital outputs, 9x Analog inputs, and 2x Analog outputs, and can be easily controlled by Computer-on-Modules via software over Ethernet/LAN. By consolidating OT with IT, it is the ideal solution to transform your factory into a smart one.
