Overview
Embedded Engineering That Unlocks the
Full Potential of Silicon
At Akhila Labs, embedded engineering is the foundation of everything we build. We go beyond writing firmware that runs on hardware—we engineer systems that extract
maximum performance, reliability, and efficiency from the silicon itself.
10+
Embedded
Platforms delivered
10+
Embedded
Platforms delivered
10+
Embedded
Platforms delivered
10+
Embedded
Platforms delivered
Overview
The "Silicon-to-System" Approach
Safety-Critical
Modernization
We are pioneering the adoption of Rust in embedded systems. By leveraging Rust’s memory-safety guarantees, we eliminate entire classes of bugs (buff er overfl ows, null pointer dereferences) that plague legacy C/C++ codebases, reducing post-deployment patches and enhancing security. 9
Safety-Critical
Modernization
We are pioneering the adoption of Rust in embedded systems. By leveraging Rust’s memory-safety guarantees, we eliminate entire classes of bugs (buff er overfl ows, null pointer dereferences) that plague legacy C/C++ codebases, reducing post-deployment patches and enhancing security. 9
Safety-Critical
Modernization
We are pioneering the adoption of Rust in embedded systems. By leveraging Rust’s memory-safety guarantees, we eliminate entire classes of bugs (buff er overfl ows, null pointer dereferences) that plague legacy C/C++ codebases, reducing post-deployment patches and enhancing security. 9
Overview
Embedded Engineering That Unlocks the
Full Potential of Silicon
We build production-grade Board Support Packages (BSPs) tailored to
custom hardware, not reference designs.
- Bootloaders & Secure Boot : U-Boot, LittleKernel (LK), HAB-based secure
boot, fast startup optimization. - Bootloaders & Secure Boot : U-Boot, LittleKernel (LK), HAB-based secure
boot, fast startup optimization. - Bootloaders & Secure Boot : U-Boot, LittleKernel (LK), HAB-based secure
boot, fast startup optimization.
Full-Stack Hardware Context
Our firmware engineers sit alongside our hardware design team. This
proximity allows for “co-design,” where pin-muxing, power domains, and clock trees are optimized in tandem, preventing the “throw it over the wall” inefficiencies common in pure-play software
vendors.10
The Stability of Deep Tech Talent
Leveraging the high-retention engineering ecosystem of Ahmedabad, our teams maintain long-term continuity on your projects. This allows for deep accumulation of domain knowledge, essential for maintaining complex codebases over product lifecycles that can span decades.2
Overview
Embedded Engineering That Unlocks
the Full Potential of Silicon
Languages
C (C99/C11), C++
(C++14/17/20),
Rust (Embedded HAL)
Assembly (ARM/RISC-V)
Languages
C (C99/C11), C++
(C++14/17/20),
Rust (Embedded HAL)
Assembly (ARM/RISC-V)
Languages
C (C99/C11), C++
(C++14/17/20),
Rust (Embedded HAL)
Assembly (ARM/RISC-V)
Languages
C (C99/C11), C++
(C++14/17/20),
Rust (Embedded HAL)
Assembly (ARM/RISC-V)
Languages
C (C99/C11), C++
(C++14/17/20),
Rust (Embedded HAL)
Assembly (ARM/RISC-V)
Languages
C (C99/C11), C++
(C++14/17/20),
Rust (Embedded HAL)
Assembly (ARM/RISC-V)
Industries Served
Automotive
Telematics Control Units (TCU), Infotainment (IVI), Digital Instrument Clusters, ADAS Sensor Fusion, EV Battery Management Systems (BMS).
Automotive
Telematics Control Units (TCU), Infotainment (IVI), Digital Instrument Clusters, ADAS Sensor Fusion, EV Battery Management Systems (BMS).
Automotive
Telematics Control Units (TCU), Infotainment (IVI), Digital Instrument Clusters, ADAS Sensor Fusion, EV Battery Management Systems (BMS).
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