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Explore the technical capabilities of the actproof 0.3.4 library for verifiable evidence receipts and the new Low Latency Profile feature for Windows 11.
The software landscape recently saw updates regarding both data integrity tools and operating system performance, specifically with the release of the actproof 0.3.4 library and the testing of a new Windows 11 feature [1, 2]. While actproof provides a framework for creating verifiable cryptographic receipts for regulated acts, Microsoft is currently testing a "Low Latency Profile" designed to improve system responsiveness in Windows 11 [1, 2].
Key takeaways
The actproof 0.3.4 library enables users to create cryptographic receipts that bind specific records to trusted timestamps and a transaction on the Algorand public ledger [1]. By utilizing RFC 8785 for canonical JSON, the tool ensures that the same manifest always produces the same hash, allowing any third party with a Python installation to verify the receipt independently [1]. The system is built to support various use cases, including pharma batch records, financial reporting, and academic research, by providing a trail of evidence that does not require trust in the issuing platform [1].
The project explicitly states that it does not certify regulatory compliance or guarantee the truthfulness of source documents [1]. Instead, it focuses on confirming the integrity, timing, and issuer signature of the evidence provided [1]. The library supports production anchoring through Google Cloud KMS and provides a command-line interface for verifying receipts and validating manifests against a versioned catalogue of regulatory act types [1].
Microsoft is testing a new feature called "Low Latency Profile" within the Windows Insider program, specifically on the Experimental channel [2]. This feature is part of a broader initiative known as "Windows K2," which focuses on optimizing the operating system by updating legacy code, transitioning components to WinUI 3, and improving the speed of the File Explorer and system menus [2].
The Low Latency Profile works by automatically detecting high-priority user actions, such as launching an application or opening the Start menu, and briefly increasing the processor frequency for a duration of one to three seconds [2]. According to reports, this approach minimizes the impact on battery life and device temperature because the high-frequency state is not sustained [2]. Users currently participating in the Windows 11 Insider Preview can enable the feature using the ViVeTool utility with specific identifiers [2].
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The native cryptocurrency of the Algorand blockchain is called ALGO.
Algorand uses a Byzantine agreement protocol that leverages proof of stake and cryptographic sortition to randomly select committees of users to propose and certify blocks.
Algorand has implemented Falcon signatures to safeguard its chain history and executed the first quantum-resistant transaction on its mainnet in 2025.
As of March 17, 2026, the SEC and CFTC have jointly identified ALGO as a digital commodity.
These developments highlight two distinct approaches to digital infrastructure: one focused on the verifiable integrity of institutional records and the other on the responsiveness of consumer computing environments [1, 2]. Actproof offers a standardized, decentralized method for organizations to prove the existence and timing of regulated acts, potentially increasing transparency in sectors like finance and public policy [1]. Meanwhile, the Windows 11 Low Latency Profile represents a shift toward more granular, automated power management, aiming to improve the perceived speed of the operating system without significantly compromising hardware efficiency [2]. Both projects reflect ongoing efforts to refine how data is handled and how software interacts with underlying hardware resources.