Dorsavi Ltd Begins Manufacturing of First RRAM Validation Chip

By Josua Ferreira -
  • dorsaVi has commenced tape-out of its first RRAM-CMOS validation chip with tier-one semiconductor partners, moving the program from completed design into physical silicon manufacturing for the first time.
  • The chip uses commercial CMOS front-end wafers sourced through TSMC with partner-led BEOL and RRAM integration, meaning the architecture is being tested under standard commercial foundry conditions rather than a proprietary process.
  • The validation chip simultaneously tests three capabilities: self-checking write-and-verify circuitry, compute-in-memory operation across up to 64 inputs, and BEOL integration on commercial CMOS — all in a single physical silicon implementation.
  • dorsaVi has outlined two commercialisation pathways — direct embedding into end-devices and licensing to foundries and fabless chip makers — both designed to require no new manufacturing investment from adopters.
  • No completion timeline for the validation program has been disclosed; results from wafer-level electrical testing will determine the path toward the 22-nm implementation and any commercial scaling.

dorsaVi begins silicon manufacturing of its first RRAM validation chip

dorsaVi (ASX: DVL) has commenced the tape-out of its first RRAM-CMOS validation chip with tier-one semiconductor partners, moving the program from completed design into physical silicon manufacturing.

The step is designed to validate the company’s RRAM platform for future AI, robotics, EV and wearable applications. It follows the recently finalised RRAM-CMOS validation chip design, first detailed in the company’s ASX announcement dated 28 January 2026.

Key highlights of the tape-out milestone

  • Tape-out commenced with tier-one semiconductor partners, progressing the program from a finalised design package into staged silicon implementation.

  • Advances the 22-nm RRAM development program from design completion toward fabrication and wafer-level testing.

  • Implementation uses commercial CMOS front-end wafers sourced through TSMC, followed by partner-led BEOL and RRAM integration.

  • Targets rising edge-AI demand for local, low-power, non-volatile memory.

  • Designed to generate critical silicon validation data to guide RRAM integration, circuit optimisation and manufacturing refinement.

What tape-out means, and why it matters

Tape-out is the process by which a finalised integrated circuit design package is prepared for physical manufacturing. It marks the transition from design to fabrication, proving the architecture is ready for standard commercial foundry conditions.

The milestone is significant because it moves the validation chip out of the design stage and into the implementation flow required to produce testable silicon. This step generates the physical data needed before any commercial scaling.

The RRAM-CMOS validation chip design integrates three capabilities simultaneously: self-checking write-and-verify circuitry, compute-in-memory operation accumulating across up to 64 inputs, and BEOL integration on commercial CMOS wafers sourced through TSMC.

At the heart of the platform is RRAM, a type of non-volatile, low-power memory that retains data without a constant power supply. The chip also integrates Compute-in-Memory (CIM) structures, an approach where the same physical layer that stores data can also perform calculations locally, avoiding the constant shuttling of data between memory and a separate processor.

The three purposes of the validation chip

  1. Validation of advanced memory features — confirming the RRAM memory array, dedicated write-and-verify circuitry and Compute-in-Memory structures operate together under physical silicon conditions.

  2. Opens the pathway to high-value applications — progressing toward embedding validated silicon into target platforms across exoskeletons, robotics, defence and industrial AI.

  3. Scalable manufacturing process — using commercial CMOS front-end wafers and integrating the RRAM stack into existing back-end-of-line (BEOL) flows, drawing on established foundry infrastructure.

Two pathways to meet global AI memory demand

Because the technology is designed for standard commercial CMOS processes, dorsaVi has outlined two potential commercialisation pathways.

The first would be embedding the technology directly into end-devices. The second would be working alongside foundries and fabless chip makers to develop specialised chips for targeted applications.

Both are intended to be accessible without new manufacturing investment, which the company suggests could make the technology practical for adoption across robotics, electric vehicles, exoskeletons and industrial AI.

High-value markets targeted by dorsaVi’s RRAM

The validation work supports the company’s broader ultra-edge intelligence roadmap, where local memory, low-power processing and on-device decision-making are expected to be important for future sensing and hardware platforms.

For readers wanting to understand how the platform holds up under real operating conditions, our full explainer on thermal stability validated at 150 degrees C covers the AEC-Q100 methodology and what reversible cell behaviour at extreme temperatures means for defence, robotics, and industrial deployment.

Market Specific application How RRAM benefits it
Smart Exoskeletons EMG-driven intent recognition nodes Fast writes inside the control loop; non-volatile storage of each user’s personalised baseline without cloud dependency
Robotics Joint position and torque controllers Non-volatile memory survives power cycles, so the limb wakes up calibrated without re-homing
Defence Autonomous edge sensing platforms Local inference without connectivity; low power draw extends operational endurance in the field
Industrial AI On-device model inference Model weights held non-volatile and adjacent to compute; eliminates power-hungry data reload cycles
Medical & Wearables Continuous biosignal monitoring Always-on, low-power memory retains patient baselines locally, removing reliance on external processing

CEO commentary

Mathew Regan, Group Chief Executive Officer

“Commencing the tape-out of our first RRAM test-chip is a significant milestone for the program. It confirms that our RRAM architecture is manufacturable under standard commercial foundry conditions and gives us the physical silicon we need to validate performance and refine the technology. We are focused on executing this next phase of testing and using the results to advance the program toward commercial scaling.”

What comes next

The validation chip follows a staged silicon implementation flow. It begins with commercial CMOS front-end wafers sourced through TSMC, followed by partner-led BEOL and RRAM integration, before wafer-level electrical testing.

Staged Silicon Implementation Flow

This staged approach allows dorsaVi and its partners to evaluate RRAM integration on a commercial CMOS foundation while preserving flexibility for process learning and future node migration. The data generated is expected to inform future optimisation of the platform and support the subsequent 22-nm implementation pathway. The company has not disclosed a completion timeline.

The program sits alongside dorsaVi’s established wearable sensor business across its Workplace and Clinical markets, forming part of its stated ambition to build the hardware foundations of “ultra-edge intelligence.”

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Frequently Asked Questions

What is a tape-out in semiconductor development?

Tape-out is the process by which a finalised integrated circuit design package is prepared and handed off for physical manufacturing, marking the transition from design to fabrication and proving the architecture is ready for standard commercial foundry conditions.

What is RRAM and why does dorsaVi think it matters for AI applications?

RRAM (Resistive Random-Access Memory) is a type of non-volatile, low-power memory that retains data without a constant power supply. dorsaVi's platform also integrates Compute-in-Memory structures, allowing the same physical layer that stores data to perform calculations locally — eliminating the power-hungry data transfers between memory and a separate processor that limit conventional AI chips.

Which markets is dorsaVi targeting with its RRAM chip technology?

dorsaVi is targeting smart exoskeletons, robotics, defence autonomous sensing platforms, industrial AI, and medical and wearable biosignal monitoring — all applications where local, low-power, non-volatile memory is critical for on-device decision-making without cloud dependency.

What semiconductor partners is dorsaVi working with for the RRAM validation chip?

dorsaVi is working with tier-one semiconductor partners using commercial CMOS front-end wafers sourced through TSMC, followed by partner-led back-end-of-line (BEOL) and RRAM integration, though the company has not publicly named all partners involved.

What happens after the tape-out and when will dorsaVi have results from the RRAM validation chip?

Following tape-out, the program moves through partner-led BEOL and RRAM integration before wafer-level electrical testing — the data generated is expected to inform future optimisation and support the 22-nm implementation pathway, though dorsaVi has not disclosed a completion timeline.

Josua Ferreira
By Josua Ferreira
Partnership Director
Josua Ferreira holds a Bachelor of Commerce in Marketing and Advertising and brings a background in publication, business development, and ASX market storytelling. He has worked with listed companies across the resource sector and broader market, combining sharp commercial instincts with a genuine commitment to keeping investors informed.
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