Clientron Corp., a world-leading supplier of thin client and embedded systems, is proud to introduce its new reliable R810 4K triple display thin client based on Intel® Pentium® N6415 and Celeron® N6211 processors, which provide higher increased efficiency and lower power consumption to meet the demands of today’s mainstream thin client market.
Run IoT-specific workloads and Increase Data Security
The N series processors use a 10nm compute die and a 14nm platform control hub(PCH) that significantly increases computing density and system performance, so the platform can run multiple IoT-specific tasks without additional hardware and increase data security without paying a performance penalty. More, on top of an excellent quality and durable fanless design upgrade, the R810 thin client is equipped with solid aluminum chassis and able to implement most of the virtual desktop solutions & cloud computing applications for delivering optimized IoT-specific operations.
High Flexibility and Handle Higher-volume, Critical Tasks
To enable flexible expansion, the R810 offers 4K ultra-high-definition (UHD) support and triple display with three DisplayPorts. In addition, the R810 features an innovative rotating ports-on-foot design with two built-in USB ports for expansion and speaker. Moreover, the R810 supports optional PoE+ modules to provide up to 25W of power for the device and also offers optional TPM 2.0 onboard which is critical to provide a secure computing environment.
The R810 is a high-performance and flexible thin client that can be adopted for financial analysis, banking, multimedia and healthcare solutions. The sample will be available for potential customer about the beginning of February in 2021.
The highlight of R810 4K triple display thin client’s features:
- Designed with Intel® Pentium® N6415 and Celeron® N6211 processors
- Solid aluminum chassis design
- Rotatable foot stand with innovative port-on-foot design
- Support 4K triple display (3x DP)
- Optional WiFi module/antenna kit
- Optional PoE+ module
- Optional TPM 2.0