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OpenAI Reportedly Prepping Browser to Take on Google Chrome

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OpenAI is reportedly readying an AI-powered web browser to challenge Google Chrome.

This browser is set to debut in the coming weeks, Reuters reported Wednesday (July 9), citing sources familiar with the matter, with the goal of employing artificial intelligence (AI) to change how people browse the web. 

The report argues that this browser would allow OpenAI better access to one of the keys to Google success: user data. And if the 500 million weekly users of OpenAI’s ChatGPT were to adopt this browser, this could eat into Google’s ad revenue, 75% of which comes from Chrome, the report added.

Sources told Reuters the OpenAI’s browser is designed to keep some user interactions inside a ChatGPT-like native chat interface rather than clicking through to websites, and that the browser is tied to a larger plan by OpenAI to meld its services with users’ work and home lives.

A spokesperson for OpenAI declined to comment when reached by PYMNTS.

As Reuters notes, OpenAI has been facing heavy competition from Google and rival AI firm Anthropic, and is seeking new paths to growth. The company in May said it would enter the device space as it paid $6.5 billion for io, the startup run by ex-Apple design chief Jony Ive.

The news came the same day that another AI company — Perplexity — unveiled its new web browser, dubbed Comet, which allows users to answer questions, conduct tasks and carry out research from a single interface.

PYMNTS examined the state of AI-powered search — and the possible future of Google — last week in an interview with Adam Behrens, CEO of retail AI tech startup New Generation

He said that in five years, Google will no longer be “a list of links,” but “a service where you get answers, then actions, which changes how people shop and what they expect.”

“The traditional ad model starts to break down because there’s less screen space and fewer choices; you either show up ready to be picked, or you’re invisible,” Behrens added.

“For brands, it means they can’t just live behind a website anymore. They need to show up across the entire AI ecosystem so they’re shoppable, searchable and ready for whatever agent your customer is using.”

The stakes are growing higher, that report added. The average AI search visitor is 4.4 times more valuable than the average visit from the standard search based on conversion rates, per data from Semrush.



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Silicon Valley eyes a governance-lite gold rush

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Andreessen Horowitz has had enough of Delaware and is moving a unit’s incorporation out west



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Artificially intelligent: Does it matter if ChatGPT can’t think? – AFR

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Artificially intelligent: Does it matter if ChatGPT can’t think?  AFR



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Ciena Powers SingAREN to Enhance AI-Driven Research with High-Speed Network

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For over a decade, Singapore has consistently ranked highly on the Global Innovation Index, an annual ranking of 130 economies. In 2024 it achieved its highest position yet – 4th globally. 


This strong performance is largely due to steady, long-term investment in research & development (R&D) as a key pillar of Singapore’s economic development strategy.


Supporting Singapore’s Research, Innovation and Enterprise (RIE) ecosystem is the Singapore Advanced Research and Education Network (SingAREN), established in 1997. SingAREN is the sole provider of dedicated local and international network services for the local Research and Education community.


SingAREN’s network supports the SingAREN Open Exchange (SOE) for high-speed research and education connectivity, eduroam, an international Wi-Fi internet access roaming service for the international research and education community, and FileSender SG as a platform for large file transfers, among other services running on its network.


RIE is vital to Singapore’s progress, fostering economic growth and competitiveness. It also drives scientific advancements that can potentially address societal challenges and enhance our well-being.


SingAREN has supported robotic telesurgery trials across international boundaries, which require precise, instantaneous control, and a low-latency network for real-time collaboration.


SingAREN also enables high-speed, resilient connectivity to the National Supercomputing Center (NSCC), which manages Singapore’s national high-performance computing (HPC) resources, supporting research and innovation across various fields. In particular, the NSCC’s expertise and specialized infrastructure are often leveraged to manage and analyze genomic data. Transferring genomic data is typically difficult due to its massive data size.


SingAREN provided a high-speed link to the Cancer Science Institute of Singapore for a research project, transmitting more than 2 petabytes of cancer genomics data downloaded from repositories in the United States into NSCC. The research involved harmonizing petabytes of whole genome sequencing data, and downloads were expected to be extremely fast, stable, and efficient, after which, the downloaded data would be analyzed and reprocessed with high computing power.


This is but one of the examples of collaboration with NSCC to transfer, download, analyze and process genomic data.


Academic research is experiencing explosive growth and requires more data than ever before, fuelled by AI and Machine Learning (ML), and cloud computing. The increasing use of generative and agentic AI will also impact SingAREN and its research partners significantly, leading to increased data volume. This type of advanced research activity will not be possible without a robust, scalable, low-latency network.


In the coming months, SingAREN will enhance its network to further support its research institution partners. These plans include the SingAREN Lightwave Internet Exchange (SLIX) 2.5 project, to provide high-speed, secure connectivity by 2027, and the SLIX 3.0 vision to build a future-ready network that incorporates quantum-safe networking, AI research, and haptic surgery. SingAREN also aims to expand cybersecurity threat intelligence sharing and continue infrastructure upgrades, such as implementing 400G switches and enhancing Points of Presence (PoP) resilience.


SingAREN uses Ciena’s 6500 powered by Ciena’s WaveLogic programmable coherent optic technology. Deployed by Ciena partner, Terrabit Networks, Ciena’s 6500 supports SingAREN to respond to changing requirements on-demand, allowing the REN to continually maximize network efficiencies and offer customizable service delivery over any distance.


Associate Professor Francis Lee, Vice President of SingAREN


Our backbone network, powered by Ciena’s 6500 optical solution, is built to handle the growing demands of AI, genomics, and big data applications—transmitting petabytes of data. To support the advancement of Singapore’s Research, Innovation and Enterprise agenda, our flexible, low-latency network can now seamlessly deliver 10G to 100G connections to member institutions. We continue to push the boundaries of research and innovation, ensuring connectivity is never a limiting factor.



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