Turkey unveiled its intercontinental ballistic missile YILDIRIMHAN at the SAHA 2026 defense exhibition. The missile boasts a range of 6,000 kilometers and can reach speeds of Mach 25. It is equipped with four rocket motors, representing a significant advancement in the nation's defense capabilities.

The YILDIRIMHAN missile is designed for long-range precision strikes. Its Mach 25 speed makes it one of the fastest missiles in its class. The four rocket motors provide the necessary thrust to achieve intercontinental distances.

This development positions Turkey among a select group of countries with intercontinental ballistic missile technology. The missile's range allows it to target locations across continents, enhancing Turkey's strategic deterrence.

The SAHA 2026 event served as the platform for the missile's public debut. Defense industry officials highlighted the missile's potential to strengthen national security. The YILDIRIMHAN project reflects Turkey's growing self-sufficiency in advanced weaponry.

Technical details about the missile's guidance system and payload capacity were not disclosed. However, experts note that the speed and range specifications align with modern ICBM standards. The missile is expected to undergo further testing before operational deployment.

Turkey's defense industry has been expanding its missile capabilities in recent years. The YILDIRIMHAN joins a family of indigenous missiles, including short-range and medium-range systems. This missile fills a gap in long-range strike options for the Turkish military.

The YILDIRIMHAN missile was introduced at the SAHA 2026 exhibition held in Istanbul. The event showcased various defense technologies from Turkish companies. The missile's unveiling drew attention from international defense observers.

Production timelines and potential export customers have not been announced. The missile is primarily intended for use by the Turkish Armed Forces. Its development is part of a broader effort to reduce reliance on foreign defense systems.

Snap has confirmed the launch timeline for its next-generation Spectacles augmented reality glasses. The company announced that the AR glasses will be released in the fall of this year. The new Spectacles are expected to arrive before competing devices based on Android XR, Google's new operating system for extended reality headsets.

The upcoming Spectacles will feature a significantly higher price point compared to previous models. According to sources familiar with the matter, the AR glasses are expected to cost approximately $1,000. This positions the device as a premium product aimed at developers and early adopters rather than mainstream consumers.

The new Spectacles are designed to overlay digital content onto the real world through transparent lenses. The device will include built-in cameras, speakers, and gesture control capabilities. Snap has been developing the technology for several years, with earlier versions of Spectacles focused on recording video.

Snap's AR glasses will compete with devices from Meta, Apple, and other tech giants entering the mixed reality space. The company has positioned its Spectacles as a more lightweight and socially acceptable form factor compared to bulky headsets. Snap has been working with developers to create AR experiences for the platform.

The launch timing puts Snap ahead of several Android XR devices expected in 2025. Google announced Android XR in partnership with Samsung and Qualcomm, with the first headsets slated for release next year. Snap's early entry could give it an advantage in building an AR ecosystem.

Snap has not disclosed the exact release date or final pricing for the new Spectacles. The company typically unveils new hardware at its annual Snap Partner Summit in the spring, with products shipping later in the year. The fall launch window suggests a release between September and November.

The high price tag reflects the advanced technology packed into the compact form factor. Snap has invested heavily in custom optics, waveguides, and microLED displays to create a compelling AR experience. The company aims to make the device comfortable enough for all-day wear.

Snap CEO Evan Spiegel has described AR glasses as the next major computing platform. The company generates revenue primarily from advertising on its Snapchat app but sees hardware as a long-term growth opportunity. The new Spectacles represent Snap's most ambitious hardware effort to date.

Developers interested in creating AR experiences for Spectacles can apply for early access through Snap's developer program. The company plans to sell the glasses directly to consumers through its website and select retail partners. Snap will provide more details about the device's specifications and capabilities closer to the launch date.

SpaceX conducted the first test flight of its upgraded Starship rocket and Super Heavy booster Friday, achieving mostly positive results. The vehicle, the largest ever built at 408 feet (124 meters) tall, lifted off from SpaceX's Starbase launch facility in South Texas at 5:30 pm CDT (6:30 pm EDT; 22:30 UTC). Within seconds, the rocket cleared the launch tower and turned eastward over the Gulf of Mexico, propelled by 33 methane-fueled main engines.

The Starship upper stage separated from the Super Heavy booster as planned and continued its trajectory. The booster executed a controlled descent and splashdown in the Gulf of Mexico. Starship continued on its suborbital path, reaching space before reentering the atmosphere and splashing down on target in the Indian Ocean a little over an hour after launch.

This flight marked the debut of the Starship V3 variant, which incorporates upgrades over previous versions. The vehicle's performance was notably better than the first flights of Starship V1 in 2023 and Starship V2 in 2025, both of which broke apart during launch. SpaceX engineers will analyze data from the flight to inform further development.

The launch was originally scheduled for earlier in the week but was delayed due to weather and technical checks. The Federal Aviation Administration granted SpaceX a launch license for the test flight after reviewing safety and environmental requirements. No payload was carried on this mission, as the primary objective was to validate the vehicle's systems.

SpaceX has not announced a specific date for the next Starship test flight. The company continues to iterate on the design, aiming to eventually use Starship for crewed missions to the Moon and Mars. Friday's flight represents a significant step forward in the rocket's development program.

The Starship system is designed to be fully reusable, with both the Super Heavy booster and Starship upper stage intended to return to Earth for refurbishment. SpaceX has not yet attempted a landing of either stage on this flight, focusing instead on controlled splashdowns. Future tests will aim for propulsive landings at the launch site.

SpaceX founder Elon Musk stated that the flight met most of its primary objectives, calling it a "great day" for the company. The success of this test provides valuable data for upcoming missions, including potential orbital flights and payload deployments. The company plans to continue testing with increasing complexity.

AMD announced the start of production for its next-generation EPYC server processors, codenamed Venice. These chips are the first high-performance processors to enter mass production using TSMC's 2nm fabrication technology. The company confirmed the milestone in a statement released earlier this week.

The Venice EPYC processors are built on TSMC's N2 process node, which promises significant improvements in performance and power efficiency over previous generations. AMD has not disclosed specific clock speeds or core counts, but the chips are expected to target data center and cloud computing workloads. The 2nm node is TSMC's most advanced manufacturing technology, offering up to 15% faster speeds or 30% lower power consumption compared to the 3nm node.

AMD's move to 2nm production marks a strategic shift in the server processor market. The company has traditionally relied on TSMC's 5nm and 3nm nodes for its EPYC lineup. With Venice, AMD aims to compete directly with Intel's upcoming server processors, which are also expected to leverage advanced process nodes. Industry analysts note that early adoption of 2nm could give AMD a performance edge in high-performance computing and AI workloads.

The Venice chips are designed for the SP5 socket, which is compatible with existing EPYC platforms. AMD has not yet announced specific models or pricing, but the processors are expected to feature increased core counts and support for DDR5 memory and PCIe 5.0. The company also plans to integrate advanced security features and AI acceleration capabilities.

AMD's production ramp for Venice is already underway at TSMC's facilities in Taiwan. The company expects to begin shipping the processors to customers in the second half of 2025. Major cloud providers and server manufacturers are likely to be among the first to adopt the new chips.

The announcement comes as AMD continues to gain market share in the server segment. According to recent reports, AMD's EPYC processors now account for over 30% of server CPU shipments, up from less than 10% five years ago. The Venice launch is expected to further strengthen AMD's position against Intel's Xeon lineup.

AMD has not provided detailed performance benchmarks for Venice, but early testing suggests significant gains in multi-threaded workloads. The company also emphasized the energy efficiency benefits of the 2nm node, which could reduce total cost of ownership for data center operators.

"Venice represents a major leap forward in server processor technology," said an AMD spokesperson. "We are excited to bring the benefits of 2nm manufacturing to our EPYC customers." The first Venice-based servers are expected to be available from OEMs in the fourth quarter of 2025.