AMD Ryzen Embedded 8000 Performance, Efficiency & 10 Year Longevity
Bedrock R8000 is powered by the state-of-the-art AMD Ryzen Embedded 8000 processor with 8 Zen 4 cores and 16 threads running at up to 5.1 GHz. It is the most power efficient high-performance x86 CPU on the market for compute and graphics workloads. Ryzen Embedded 8000 incorporates AMD Pro technology for enhanced reliability and security and has 10 years guaranteed availability.
4 Types of AI Engines, over 100 TOPS
Ryzen Embedded 8000 has an integrated Ryzen AI NPU rated at 16 TOPS. The full processor performance scales up to 39 TOPS. Additionally, Bedrock R8000 supports two types of AI accelerators:
Hailo-8 achieves 26 TOPS and excels in AI Inferencing
The new Hailo-10 is optimized for Generative AI and provides 40 TOPS
Up to 3 AI accelerators can be installed in Bedrock R8000 with combined AI performance of over 100 TOPS.
Packed Solid with Features
The I/O, storage and networking devices found in Bedrock R8000 stand out in both performance and capacity. Thanks to its modular design Bedrock R8000 is available with either 4 displays + 2 GbE or 4 GbE + 2 displays. Bedrock R8000 is packed full with sockets for up to 96 GB DDR5 ECC, 3x NVME Gen4 2280 or up to 3 Hailo AI accelerators, WiFi 6E and 5G modem with dual SIM. I/O includes USB4 40 Gbps, extra 4 USB 3.2 ports and a console port. All these features are tightly packed in a fanless enclosure of under 1 liter.
Remarkable Fanless Cooling
Hot chips require innovative cooling. Bedrock was designed from the ground up for effective fanless cooling. The CPU is thermally coupled to the chassis using liquid metal TIM to reduce thermal resistance. Stacked heatpipes distribute the heat evenly 360º around the all-aluminum chassis. To optimize convective heat transfer, each chassis wall has two heat exchange layers – aluminum air-ducts that stimulate airflow by chimney effect, and another layer of conventional cooling ribs. As a result, Bedrock can dissipate over 3 times the power of fanless computers of similar size.
Full Control of CPU Powwe
With Bedrock R8000 you don’t have to guess how much power the system draws. Instead you can precisely set CPU power limit across an exceptionally broad power range of 8W to 54W. This is particularly useful in scenarios where limited power has to be shared between the IPC and additional devices, and when integration constraints prevent ideal heat dissipation.
Rock Solid Reliability
Bedrock is designed with reliability in mind based on decades of experience in development of IPCs and embedded systems. DC power is through a terminal block with screw locking and has a wide voltage range of 12V – 60V with two stages of regulation. RAM supports ECC. NVMe with power-loss-protection (PLP) can be ordered. Bedrock has redundant SPI Flash to prevent bricking by BIOS corruption as well as WDT and TPM. The enclosure is extremely ruggedized – all-aluminum, fanless and ventless dust-resistant IP40.
Innovative Modular Design
Bedrock is designed to address the diversity of requirements in the IoT space. This is achieved by partitioning the hardware into the following boards:
SoM with the CPU, DDR5 and NVMe slots and all native interfaces on 380 pins of high density connectors.
Networking and I/O board (NIO) with NICs and ports.
Storage and Extension Cards board (SX) with slots for WiFi, 5G modem and extra NVMe devices.
Power Module (PM) with DC to DC converter and DC input connector.
This modular design enables agile customization of Bedrock for addressing specific requirements. SolidRun is developing multiple NIO, SX and PM boards that can be mixed and matched as an off-the-shelf solution and also offers development of custom boards as an ODM service. Customers and 3rd parties that are interested in developing custom NIO, SX or PM boards are welcome to contact SolidRun for support. Bedrock enclosure is designed with customization in mind. Modification of I/O, power input, antenna openings etc. can be performed cost effectively even in small volume.
Painless Integration
The compact footprint of Bedrock, robust structure, effective fanless cooling and DC input tolerance simplify Bedrock integration. All Bedrock I/O is brought to the front panel, with DC input and antennas in the top panel. The bottom and rear panel are both reserved for mounting, allowing full usability while Bedrock is mounted to a wall or to a desk.
SolidRun offers multiple types of mounting brackets, including lever-based DIN-Rail bracket with locking, wall mount, small stand and ruggedized stand.
Field Usability
As a fanless, ventless IPC Bedrock requires no maintenance. Bedrock is designed to avoid the need to open it in the field. SIM cards are accessible from the panel using pin-hole trays. Remote power button connector is conveniently located on the top panel. All brackets and mounting fixtures are assembled from the outside. Should the need arise to open Bedrock (e.g. to install a storage device or replace the RTC battery) Bedrock opens by unscrewing a single screw.
The 0.6 liter Bedrock Tile
When integrating an IPC in tight space convection cooling becomes ineffective and is better replaced with conduction cooling. It is also desirable to make the IPC as compact and thin as possible.
Bedrock Tile is designed for these use cases. The ribbed chassis walls are replaced with flat walls with blind threadings for fastening Bedrock Tile to a cold plate. A key feature of Bedrock Tile is that it preserves the 360º internal heat distribution so it can be cooled from either side. With thickness of just 29mm and volume of 0.6 liter, Bedrock Tile is easy to integrate in tight spaces. Having all connectors on one side further simplifies the integration.
Advanced Integration Using Deck
Some integration scenarios call for custom enclosures (e.g. when additional devices must be installed with the computer in the same housing). To support these use cases Bedrock introduces the Deck concept (deck-of-cards). The SoM, NIO, SX and PM are rigidly held together with fasteners independently of the Bedrock enclosure. The Deck provides first stage cooling for most devices, in particular it includes a copper heat-plate on the CPU. The Deck is fastened to the custom chassis with only 3 screws. Fastening provides thermal coupling to the CPU, RAM, NVMe and FETs. The DC input connector is on wires and can be relocated in the chassis.
Typical use cases:
Smart Manufacturing: In smart factories, the Bedrock R8000 can enable real-time monitoring and analysis of production processes, predictive maintenance of machinery, and quality control through AI-powered visual inspection systems.
Autonomous Vehicles: Utilising the high-performance AI capabilities of the Bedrock R8000, autonomous vehicles can process sensor data for navigation, object detection, and decision-making, enhancing safety and efficiency on the road.
Smart Cities: Deployed in urban infrastructure, the Bedrock R8000 can support intelligent traffic management systems, optimise energy usage in buildings, and enable smart grid solutions for efficient power distribution.
Healthcare: In healthcare facilities, the R8000 can power AI-driven diagnostic tools, analyise medical images and patient data for early disease detection, and assist in personalised treatment plans based on patient-specific data.
Retail: Retailers can leverage the Bedrock R8000 for customer behavior analysis, inventory management, and personalised marketing strategies through AI-driven insights and recommendation systems.
Security and Surveillance: The R8000 can enhance security systems by enabling real-time video analytics for threat detection, facial recognition, and monitoring of critical infrastructure.
Agriculture: In precision agriculture, the Bedrock R8000 can process data from drones, sensors, and satellite imagery to optimise crop management practices, improve yields, and reduce resource consumption.
Telecommunications: Telecom operators can utilise the R8000 for network optimization, predictive maintenance of infrastructure, and intelligent traffic routing to improve service quality and reliability.
Energy: In the energy sector, the Bedrock R8000 can support smart grid management, renewable energy integration, and predictive maintenance of power generation assets for enhanced efficiency and reliability.
Logistics and Supply Chain: The R8000 can optimise logistics operations through AI-powered route planning, demand forecasting, and inventory optimisation, reducing costs and improving delivery efficiency.
Pricing and technical details on request: info@minidis.com