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1. Advanced Aerial AI Architecture: SMC & SoM Systems

To support next-generation edge operations in Unmanned Aerial Vehicles (UAVs) and Autonomous Mobile Robots (AMRs), Sysgration offers two distinct product pathways built upon premium system-on-chip architectures: the Smart Edge Compute (SMC) sub-system and the modular System-on-Module (SoM) platform. Powered by premium Qualcomm® Dragonwing technology, these solutions enable real-time situational awareness and secure onboard decision-making capabilities.

 

1.1 High-Performance Smart Edge Compute (SMC-800 & SMC-600)

 

The SMC series operates as a self-contained, fully integrated computer designed to handle multi-spectral workloads directly on the vehicle frame. It is engineered specifically to eliminate data processing bottlenecks for operations requiring high computational density, such as autonomous obstacle avoidance and real-time object tracking.

  

Feature Specification

SMC-600 Subsystem

SMC-800 Premium Subsystem

Processor Architecture

Qualcomm® QCS6490

Qualcomm® QCS8550

Edge AI Computing Power

12 - 14 TOPS

48 TOPS (INT8 Precision)

System Memory

8 GB LPDDR5

12 GB LPDDR5

Graphics Processing Unit

Adreno™ 643

Adreno™ 740

Wireless Connectivity

Wi-Fi 6 / Bluetooth® 5.2

Wi-Fi 7 / Bluetooth® 5.4

Onboard Flash Storage

128 GB eMMC

128 GB eMMC

 

 

1.2 Scalable Systems-on-Module (SoM-800 & SoM-600)

 

For original equipment manufacturers requiring tailored mechanical integrations, the SoM series isolates the core compute, memory, and high-speed I/O onto a production-ready edge platform. This minimizes engineering cycles and provides rapid scalability for complex industrial applications.

 

Feature Specification

SoM-600 Module

SoM-800 Premium Module

Core Architecture

Qualcomm® QCS6490

Qualcomm® QCS8550

AI Processing Output

12 - 14 TOPS

48 TOPS

Video Encode / Decode

4K @ 60fps

8K @ 60fps / 4K @ 240fps

MIPI-CSI Camera Inputs

5x Independent Channels

8x Independent Channels

 

 

2. Tactical Command Infrastructure: GCS-6070

Unmanned vehicles require a standardized, highly resilient physical node to achieve dependable bidirectional command communication. The Sysgration GCS-6070 is a military-grade rugged Tactical Ground Control Station optimized for deployment across air (UAV), land (sUGV), and sea (USV) operational fields. 

 

 

GCS-6070 Mission Capabilities

 

Featuring a rugged architecture that scales seamlessly from 48 to 100 TOPS of localized AI computation via secondary acceleration blocks, the GCS-6070 delivers synchronized mission control across multi-domain fields including Public Safety, Medical Support, Search and Rescue, and Intelligence Surveillance Reconnaissance (ISR).

 

 

Technical Design Features:

 

  • Core Computing Intellect: Built on the Qualcomm® Dragonwing QCS6690 8-core CPU architecture running up to 2.9 GHz, paired with an integrated 6 INT8 TOPS engine specialized for localized, low-latency video decoding and mapping feedback.

  • Outdoor Display Engineering: Outfitted with a 7-inch WUXGA (1920 x 1200) high-resolution display outputting 1500 nits of high brightness. The screen eliminates polarization artifacts and integrates a multi-mode capacitive touch layers capable of operating under active rain, gloves, or heavy stylus contact.

  • Mission-Critical Resilience: Fully certified to MIL-STD-810H environmental test standards alongside an IP65 ingress protection rating and verified 5-foot drop impact resistance. Operation length is sustained via a hotswappable dual-battery layout.

  • Regulatory and Security Protocols: NDAA and TAA compliant, FIPS 140-3 cryptography ready, and featuring hardware-accelerated AES-128/256 video link and telemetry encryption.

  • Connectivity and Interface Matrix: Integrated Wi-Fi 7, Bluetooth 5.4, and a modular expansion bay for Microhard, Doodle Labs, or Silvus radio transceivers. Physical controls feature precision dual joysticks, 8 customizable macro buttons, and an industrial 5-way tactical switch.

 

 

3. High-Reliability Intelligent Power & Battery Packs

Vehicle operational lifespan and flight envelopes depend closely on the underlying weight efficiency and chemical consistency of the onboard energy architecture. Sysgration designs, profiles, and manufactures customized highdensity power packs incorporating proprietary Battery Management Systems (BMS).

 

 

3.1 Chemical Options and Architecture Settings

 

  • Polymer Cell Integration: Selected for platforms demanding fast transient power pulls and extreme burst multidirectional discharge capabilities.

  • Cylindrical Cell Clustering: Optimized for long-range, high energy density deployments requiring steady current output over prolonged mission duty cycles.

  • Intelligent State Tracking: Proprietary hardware BMS units continuously compute the state-of-charge (SoC) and state-of-health (SoH) metrics via localized algorithmic cell tracking.

 

 

3.2 Mechanical Profiles & Configuration Options

 

Sysgration supplies several standardized mechanical layouts for immediate system configuration across a 7.2V to 48V operational window, scaling energy content from 24Wh up to 850Wh:

 

Cell Matrix Design

Dimensions (L x W x H)

Total Package Mass

10S4P Battery Matrix

267.1 x 165.0 x 85.0 mm

Approximately 7,960 g

12S4P Battery Matrix

315.0 x 165.0 x 85.0 mm

Approximately 8,852 g

10S8P High Capacity Matrix

500.0 x 80.0 x 104.5 mm

Approximately 9,680 g

12S8P Extended Duty Matrix

595.0 x 80.0 x 104.5 mm

Approximately 10,916 g

 

 

4. Global Supply Chain Optimization & Manufacturing

To mitigate compliance overhead and geographic single-point failure vectors, Sysgration operates an optimized cross-regional development and manufacturing model. This network allows customers to source systems globally while conforming tightly to localized regional sourcing acts.

 

Production Location

Facility Volume / Scale

Primary Manufacturing Matrix

Dallas, Texas, USA Factory

100,000 ft²

Automotive TPMS, IPC Systems, Energy Storage (ESS), UAV Compute, Battery Packs, AMRs

Nantou, Taiwan Factory

355,210 ft²

TPMS, Advanced IPC, High-Density Energy Storage (ESS), Drone Core Systems, AMR Platforms