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QuickLogic and PQSecure Enable Reprogrammable Post-Quantum Cryptography for SoCs

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QuickLogic (NASDAQ: QUIK) announced results of a technical collaboration with PQSecure Technologies showing that PQSecure's CRYSTAL-1000C post-quantum cryptographic IP core can be efficiently mapped onto QuickLogic's eFPGA Hard IP fabric for Intel 18A SoCs, enabling field-upgradeable, crypto-agile security aligned with NIST FIPS 203 and 204 standards.

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Market Context

Set against QUIK’s pattern of strong moves on earnings and contract news, this technical PQC update ...
Analysis

Set against QUIK’s pattern of strong moves on earnings and contract news, this technical PQC update lands as part of its longer-term eFPGA strategy. An effective S-3 shelf for up to $125,000,000 and recent insider net selling highlight financing and governance dynamics investors may monitor alongside future monetization of such collaborations.

Key Figures

Algorithm deprecation year: 2030 Transition completion year: 2035 PQC market size: $420M +1 more
4 metrics
Algorithm deprecation year 2030 NIST transition timeline deprecating classical algorithms
Transition completion year 2035 NIST mandate to complete post-quantum transition
PQC market size $420M Global post-quantum cryptography market in 2025
PQC market projection over $2.8B Projected global post-quantum cryptography market in 2030

Historical Context

5 past events · Latest: Jun 16 (Neutral)
Pattern 5 events
Date Event Sentiment 24h Move Catalyst
Jun 16 Conference participation Neutral -4.6% Announcement of participation in Northland Growth Conference 2026 with investor meetings.
Jun 02 Index inclusion Positive +5.6% Planned addition to Russell 2000 and Russell 3000 index families.
May 13 IP contract win Positive +14.6% New FPGA Hard IP contract with a ceiling value of $2.7 million.
May 12 1Q26 earnings report Positive +14.6% Q1 2026 revenue growth with improving new product contribution despite continued losses.
May 05 Trade show showcase Neutral +2.1% Plans to demonstrate EOS S3 SoC and eFPGA solutions at Sensors Converge.

24h Move is the share-price change in the day after each event; other market factors may also have contributed.

Pattern Detected

QUIK has often traded higher on index inclusion, contract wins, and earnings, with only occasional divergence on less material news.

Key Terms

post-quantum cryptographic, efpga, side-channel
3 terms
post-quantum cryptographic technical
"demonstrating that PQSecure's CRYSTAL-1000C post-quantum cryptographic IP core can be efficiently"
Post-quantum cryptographic describes encryption methods and security tools designed to keep data safe against the advanced computing power of future quantum computers. Investors should care because it’s like replacing old locks with ones that resist a new kind of master key: companies that adopt these safeguards reduce legal and operational risks, protect customer trust, and may gain a competitive edge, while laggards face costly upgrades and potential breaches.
efpga technical
"PQSecure IP efficiently maps into QuickLogic eFPGA fabric, delivering field-upgradeable security"
An eFPGA is a programmable block of computer hardware that chip makers can embed inside larger chips so customers can reconfigure certain functions after the chip is manufactured. Think of it as a small patch of hardware that can be reshaped like Lego pieces to add or change features without redesigning the whole chip. For investors, eFPGAs matter because they can increase a chip’s lifespan, add customer value, and create recurring licensing or royalty revenue streams.
side-channel technical
"higher-performance configurations and side-channel countermeasures such as masking and hiding"
A side-channel is an indirect way information or value leaks out of a system through unintended paths—like noise, timing, power use, or physical signals—rather than through its main, designed channels. For investors, side-channel risks matter because they can expose confidential data, enable fraud, disrupt products, or trigger regulatory penalties and costly fixes; think of it as a hidden crack that can let trouble sneak into an otherwise secure building.

AI-generated analysis. How Rhea-AI works. Not financial advice.

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PQSecure IP efficiently maps into QuickLogic eFPGA fabric, delivering field-upgradeable security without costly silicon re-spins.

SAN JOSE, Calif., July 16, 2026 /PRNewswire/ -- QuickLogic® Corporation (NASDAQ: QUIK), a developer of embedded FPGA (eFPGA) Hard IP, Strategic Radiation Hardened and Antifuse FPGAs, and ruggedized programmable logic solutions, today announced results of a joint technical collaboration with PQSecure™ Technologies demonstrating that PQSecure's CRYSTAL-1000C post-quantum cryptographic IP core can be efficiently implemented as a reprogrammable function within SoCs using QuickLogic's eFPGA Hard IP fabric.

QuickLogic and PQSecure collaboration at a high level

The trade study implemented CRYSTAL-1000C, targeting NIST-finalized standards FIPS 203 (ML-KEM) and FIPS 204 (ML-DSA), on QuickLogic eFPGA Hard IP built for the Intel 18A process node. The PQSecure core was successfully placed and routed within eFPGA IP cores already used by QuickLogic customers in their ASICs, with sufficient performance for most applications and substantial capacity headroom.

PQSecure's CRYSTALS line is highly customizable to a broad range of use cases. SoC designers can use QuickLogic's Aurora programming tools to generate a project-specific resource report and determine the optimal eFPGA configuration for their crypto-agile security needs. SoC designers can right-size the eFPGA fabric for area and power efficiency or use the remaining resources to support higher-performance configurations and side-channel countermeasures such as masking and hiding.

The post-quantum migration is urgent: NIST's transition timeline deprecates classical algorithms by 2030 and mandates completion by 2035, while the "harvest-now, decrypt-later" threat requires action today. Fixed-silicon cryptographic engines cannot adapt without costly re-spins. A recent study by Markets and Markets Research indicates that the global post-quantum cryptography (PQC) market is projected to grow from $420M in 2025 to over $2.8B in 2030.

With QuickLogic's eFPGA Hard IP, ASICs/SoCs can update their cryptographic engine in the field by loading a new bitstream – swapping algorithm parameter sets, running hybrid classical and post-quantum modes during transition, or patching side-channel vulnerabilities without new silicon. QuickLogic's Australis IP Generator produces customer-specific eFPGA Hard IP at leading process nodes as silicon-proven, GDSII-level blocks, delivering superior PPA versus soft eFPGA IP alternatives.

"This collaboration demonstrates the perfect use case for eFPGA Hard IP," said Trey Peterson, Field Applications Engineer at QuickLogic. "The post-quantum cryptography transition is an evolving process, not a single event. SoC designers who hard-wire their security engines today face costly, avoidable re-spins. We've proven that a reprogrammable solution works seamlessly today while leaving the flexibility to adapt tomorrow."

"PQSecure's CRYSTAL-1000C-SCA delivers hardware-speed and side-channel protected post-quantum security for resource-constrained platforms," said Luke Beckwith, Senior Hardware Engineer at PQSecure Technologies. "Our customers need to know their devices will remain secure a decade from now. Pairing our IP with QuickLogic's reconfigurable fabric future-proofs their hardware without requiring a new tape-out every time the threat landscape evolves."

A summary of the trade study, including target configuration specifications and architectural analysis, is available at www.quicklogic.com/pqsecure-partnership and www.pqsecurity.com.

Detailed performance and resource-utilization data is available to qualified customers under NDA. Engineers and SoC designers evaluating eFPGA-based post-quantum security solutions are encouraged to contact QuickLogic's technical sales team.

About QuickLogic

QuickLogic is a fabless semiconductor company specializing in embedded FPGA (eFPGA) Hard IP, Strategic Radiation Hardened and Antifuse FPGAs, and ruggedized programmable logic solutions. QuickLogic's unique approach combines cutting-edge technology with open-source tools to deliver highly customizable low-power solutions for aerospace and defense, industrial, computing, and consumer markets. For more information, visit www.quicklogic.com.

About PQSecure Technologies

PQSecure Technologies is a quantum-safe cryptography company focused on delivering production-grade, low-resource post-quantum cryptographic IP for SoC, ASIC, and embedded platforms. Its PQSecure-CRYSTALS product line implements ML-KEM (FIPS 203) and ML-DSA (FIPS 204) with optional side-channel and fault-attack countermeasures, in profiles from ultra-compact to high-performance. For more information, visit www.pqsecurity.com.

QuickLogic and logo are registered trademarks of QuickLogic. All other trademarks are the property of their respective holders and should be treated as such.  

QuickLogic logo

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SOURCE QuickLogic Corporation

FAQ

What did QuickLogic (NASDAQ: QUIK) and PQSecure demonstrate with the CRYSTAL-1000C IP core?

QuickLogic and PQSecure demonstrated that the CRYSTAL-1000C post-quantum cryptographic IP core can be efficiently implemented on QuickLogic eFPGA Hard IP. According to QuickLogic, it fit within existing customer eFPGA cores, delivered sufficient performance, and retained substantial capacity headroom for additional features.

How does QuickLogic's eFPGA enable post-quantum cryptography upgrades for SoCs using QUIK technology?

QuickLogic's eFPGA Hard IP allows ASICs and SoCs to update cryptographic engines in the field by loading a new bitstream. According to QuickLogic, designers can change algorithm parameters, run hybrid classical and post-quantum modes, or patch side-channel vulnerabilities without requiring new silicon re-spins.

Which NIST post-quantum standards does PQSecure's CRYSTAL-1000C on QuickLogic eFPGA target?

The CRYSTAL-1000C implementation on QuickLogic eFPGA targets NIST-finalized standards FIPS 203 (ML-KEM) and FIPS 204 (ML-DSA). According to QuickLogic, the trade study successfully mapped these algorithms onto Intel 18A-based eFPGA Hard IP with performance suitable for most applications and remaining resource headroom.

Why is post-quantum migration urgent for SoC designers using QuickLogic QUIK solutions?

Post-quantum migration is considered urgent because NIST plans to deprecate classical algorithms by 2030 and complete transition by 2035. According to QuickLogic, the harvest-now, decrypt-later threat and fixed-silicon inflexibility make reprogrammable eFPGA-based cryptographic engines attractive for long-lived hardware designs.

How can SoC designers size QuickLogic eFPGA fabric for PQSecure post-quantum security IP?

SoC designers can use QuickLogic's Aurora tools to generate project-specific resource reports and select an optimal eFPGA configuration. According to QuickLogic, they can right-size for area and power efficiency or use remaining resources for higher performance and side-channel countermeasures such as masking and hiding.

What market growth context for post-quantum cryptography is relevant to QuickLogic QUIK?

A Markets and Markets Research study cited by QuickLogic projects the global post-quantum cryptography market will grow from $420 million in 2025 to over $2.8 billion in 2030. This provides demand context for reprogrammable PQC solutions using QuickLogic's eFPGA Hard IP and PQSecure cores.