Industrial Computer Architecture Modular IPC Design Built In-House
17 years of R&D, 20+ core patents, and a self-developed industrial computing foundation — we bring together three layers, modular hardware · edge execution · industrial reliability, so your field systems run 24/7 even in the harshest environments.
From board to system, from hardware to runtime, from standalone device to closed-loop field control —
we build industrial-grade reliability into every layer of the architecture.
FlexCore™
Modular Industrial Hardware Architecture
A three-board modular design — i-Core compute board + i-Function expansion board + i-Connect I/O board — paired with smart thermal management lets a single hardware architecture power industrial PCs, panel PCs, AI edge, and field operations across every scenario.
- 60% shorter development cycles Shared board platforms — freezable and built for long-term supply
- One architecture across 4 product platforms From box PC to panel PC to portable
- i-Function modular expansion Flexible mix of M.2 / PCIe / LAN / I/O
- Smart thermal management Load-tiered active cooling + fanless low-noise dissipation
EdgeSync™
Industrial Edge Execution Architecture
Built around six on-site capabilities — data acquisition · control assistance · HMI · AI inference · multi-link communication · task orchestration — EdgeSync coordinates input → processing → output entirely at the edge. When the network drops, the cloud is unreachable, or latency is critical, your systems keep making decisions and executing tasks locally.
- 6 edge capabilities Acquisition / control / HMI / AI / communication / orchestration
- Local closed-loop tasks Preset workflows keep running even offline
- Multi-link communication LAN + 5G + WiFi 6 + redundant serial
- Low-latency AI inference Jetson / x86 + NPU edge compute power
SafeCore™
Industrial-Grade Reliability Architecture
For demanding scenarios — power faults, grid fluctuations, unattended operation, and system anomalies — SafeCore combines four coordinated mechanisms: power protection + backup power + boot/shutdown control + self-recovery. Your field systems survive power loss without damage, restart automatically on power-up, and recover from faults on their own.
- MTBF 60,000h+ Mean time between failures of 6.8 years
- Full power protection Overvoltage / undervoltage / reverse-polarity / surge protection
- Backup power / supercapacitor Safe shutdown on power loss · zero data loss
- Boot control + self-recovery Auto power-on · watchdog reset · remote wake-up
Three Layers Working as One = the CESIPC Industrial Computing Foundation
The three architectures aren't simply stacked — they build on and reinforce one another. This is the core capability CESIPC has refined over 17 years focused on industrial computing.
A single board architecture carries everything from industrial PCs to AI edge to portable command posts, and edge task capabilities scale up as the board platform evolves.
Multi-source edge collaboration plus industrial-grade reliability — no lost tasks on power loss, uninterrupted acquisition through network outages, and self-recovery from faults — for an interference-resistant closed loop in the field.
Modular, long-term supply, and freezable — letting customers treat the hardware platform as a "validated system component" rather than an unstable variable.
Three Architectures Powering Four Ops Platforms
From industrial computing to touch displays, from hygienic protection to field operations — the three architectures take on different emphases across the four platforms, yet share a single, unified foundation.
ComputeOps™
Industrial Computing Platform
Box IPC · modular · AI edge · rackmount
→ Interactive ExecutionFrontOps™
Touch Display Platform
Panel PC · AI panel · industrial monitor · RFID
→ Hygienic ExecutionCleanOps™
Hygienic Protection Platform
G stainless · S built-in · L aluminum · E coated
→ Field ExecutionFieldOps™
Field Operations Platform
L1 tool computer · L2 workstation · L3 FIDCP
→Have a project for the FlexCore™ + EdgeSync™ + SafeCore™ architecture?
Tell us your project background and technical requirements, and our engineers will respond within 24 hours with a complete solution, recommended models, a quotation, and prototype evaluation.