Empowering Automotive Safety and Comfort Through Advanced Semiconductor Solutions
The automotive industry’s rapid transformation demands innovative semiconductor solutions that integrate AI, electrification, connectivity, and safety features. As vehicles become increasingly smart, connected, and sustainable, original equipment manufacturers (OEMs) face complex design and performance challenges. Ensuring reliability, safety, and compliance with stringent automotive standards requires expert semiconductor design and VLSI expertise.
We address these challenges through its Chip-to-Cloud automotive semiconductor solutions, harnessing AI-driven design optimization and advanced process technologies. Our expertise spans semiconductor design, VLSI, and embedded software development, ensuring seamless integration and exceptional performance. With a focus on power efficiency, thermal management, and rigorous testing protocols, we guarantee compliance with automotive standards.
Accelerate Automotive Innovation with Our Expert Chip-to-Cloud Services
Our automotive bootloaders offer a compelling solution for the evolving needs of the industry.
- PBL and SBL (Type1 BootLoaders)
- FBL and FLD (Type2 BootLoaders)
- Based on CAN communication protocols
- Reduced downtime & optimized erasing/flashing process
- Modular design for easy adaptation to specifications
We deliver cutting-edge ASIC and SOC solutions tailored for the automotive industry by leveraging advanced architectures.
- ARM A7x based ADAS SOCS
- ARM A53 based dashboard control SoCs
- IVI SOCs, ASICS
- ARM M* based Auto Radar SoCs
- RISC V based BMS
We help ensure the safety and reliability of your automotive systems through rigorous functional safety assessments and audits.
- Assessment of existing systems for safety
- Functional safety gap analysis
- FUSA confirmation reviews
- FUSA Assessment
- FUSA Audit
Our Automated Testing Equipment (ATE) solutions that streamline your testing processes, resulting in improved product quality.
- Easy & low-cost communication setups
- Built-in error detection
- Robust and reliable checking
- Flexibility and ease of implementations
Our comprehensive hardware services ensure optimal hardware performance, minimizes downtime and enhances security.
- Managed hardware support services
- Complex and sophisticated designs
- Hardware designs based In the response and requirements
- End-to-end vulnerability assessment & management
We deliver high-quality software solutions with a focus on well-defined requirements, cost-effective development and deployment, and easily scalable features.
- Well defined requirements and development
- Low-cost app development & deployment
- Easily scalable and upgradable features
- Performance and security as per the requirements
Our solutions facilitate easy ECU communication setup, ensure extremely robust and secure data exchange, and feature integrated capabilities for automatic error detection.
- Easy ECU communication setup
- Extremely robust and secure communication
- Integrated capacity for automatic error detection
- Reliable and speedy communication
Why Choose ACL Digital’s Automotive Solutions
AUTOSAR Leadership
Pioneering Classic and Adaptive solutions for enhanced safety and efficiency
OEM-Tier 1 Collaborations
Tailored ADAS solutions through strategic partnerships
Connected and Autonomous Innovation
Advancing vehicle technology for a safer, more efficient future
Agile Development
Rapid, adaptable solutions for evolving ADAS demands
Client Impact
Connectivity SoC: From Concept to Silicon with Accelerated Time-to-Market
We partnered with a Tier-1 Semiconductor Company to deliver a high-performance Connectivity SoC derivative, streamlining the design process from RTL to GDSII.
The Challenges
- Integrating high-density WiFi and Bluetooth modules within budgets.
- Achieving low-power operation across a range of applications.
- Implementing high-performance microcontrollers.
- Ensuring robust functionality through rigorous verification of complex low-power state machines.
The Outcomes
- Successfully transitioned the Connectivity SoC design from RTL to GDSII.
- Optimized channel length and VT analysis to meet stringent power, performance, and area (PPA) targets.
- Mitigated cross-talk and ensured EMI/EMC compliance for robust operation in mixed-signal environments.
- Developed DVFS-aware STA corner definitions to guarantee performance across varying voltage and frequency conditions.
Accelerating High-Speed SERDES Chip Development
We delivered a turnkey solution for a client, encompassing design, IP verification, full-chip verification, synthesis, and DFT for multiple high-speed SERDES chips.
The Challenges
- Meeting aggressive project timelines with a rapid six-month spec-to-tapeout cycle.
- Successfully navigating a complex 65nm technology process.
- Ensuring seamless project execution and management throughout the entire lifecycle.
- Successfully bringing up the System-on-Chip (SoC) after tapeout.
The Outcomes
- Conducted thorough IP-level verification for DisplayPort Rx and Tx interfaces.
- Executed comprehensive chip-level verification for three distinct SERDES chip variants.
- Assumed full ownership of full-chip synthesis for two of the SERDES chips.
- Performed rigorous static and dynamic checks, including lint, CDC, and LEC, across multiple chip versions.
Conquering Complex SoC Development with a Dedicated Engineering Team
We partnered with a Tier-1 North American Semiconductor company to deliver a high-performing team of 60 engineers for their critical RTL-to-GDSII projects, encompassing multiple complex automotive SoCs.
The Challenges
- Designing cutting-edge SoCs featuring AI Cores, GPUs, and advanced processing units.
- Integrating high-speed interfaces like PCIe, USB, and DDR3.
- Navigating the complexities of leading-edge technology nodes.
- Achieving optimal power, performance, and area (PPA) through effective synthesis strategies.
The Outcomes
- Successfully executed IP and SoC verification, ensuring functional correctness and robust design.
- Developed and implemented effective DFT strategies, including comprehensive fault coverage.
- Optimized design parameters, including RAM tiling strategies, register handling, and transistor sizing.
