Google to start embedding AI chatbot in makeover of its search engine

Google unleashed another wave of artificial intelligence (AI) technology on Tuesday to accelerate a year-long makeover of its search engine.
The tech giant is changing the way people get information and curtailing the flow of Internet traffic to websites.
The next phase outlined at Google's annual developers conference includes releasing a new "AI mode" option in the United States.
The feature makes interacting with Google's search engine more like having a conversation with an expert capable of answering questions on just about any topic imaginable.
AI mode is being offered to all consumers in the US just two-and-a-half-months after the company began testing with a limited Labs division audience.
Google is also feeding its latest AI model, Gemini 2.5, into its search algorithms, and will soon begin testing other AI features, such as the ability to automatically buy concert tickets and conduct searches through live video feeds.
In another example of Google's all-in approach to AI, the company revealed it is planning to leverage the technology to re-enter the smart glasses market with a new pair of Android XR-powered spectacles.
The preview of the forthcoming device, which includes a hands-free camera and a voice-powered AI assistant, comes 13 years after the debut of "Google Glass," a product that the company scrapped after a public backlash over privacy concerns.
Google didn't say when its Android XR glasses will be available or how much they will cost, but disclosed they will be designed in partnership with Gentle Monster and Warby Parker.
The glasses will compete against a similar product already on the market from Facebook parent Meta Platforms and Ray-Ban.
The expansion builds upon a transformation that Google began a year ago with the introduction of conversational summaries called "AI overviews" that have been increasingly appearing at the top of its results page and eclipsing its traditional rankings of web links.
About 1.5 billion people now regularly engage with "AI overviews," according to Google, and most users are now entering longer and more complex queries.
"What all this progress means is that we are in a new phase of the AI platform shift, where decades of research are now becoming reality for people all over the world," Google CEO Sundar Pichai said before a packed crowd in an amphitheater near the company's Mountain View, California, headquarters.
Although Pichai and other Google executives predicted AI overviews would trigger more searches and ultimately more clicks to other sites, it hasn't worked out that way so far, according to the findings of search optimisation firm BrightEdge.
Clickthrough rates from Google's search results have declined by nearly 30 per cent during the past year, according to BrightEdge's recently released study, which attributed the decrease to people becoming increasingly satisfied with AI overviews.
The decision to make AI mode broadly available after a relatively short test period reflects Google's confidence that the technology won't habitually spew misinformation that tarnishes its brand's reputation, and acknowledges the growing competition from other AI-powered search options from the likes of ChatGPT and Perplexity.
The rapid rise of AI alternatives emerged as a recurring theme in legal proceedings that could force Google to dismantle parts of its internet empire after a US federal judge declared its search engine to be an illegal monopoly.
In testimony during a trial earlier this month, longtime Apple executive Eddy Cue said Google searches done through the iPhone maker's Safari browser have been declining because more people are leaning on AI-powered alternatives.
And Google has cited the upheaval being caused by AI's rise as one of the main reasons that it should only be required to make relatively minor changes to the way it operates its search engine because technology already is changing the competitive landscape.
But Google's reliance on more AI so far appears to be enabling its search engine to maintain its mantle as the Internet's main gateway - a position that's main reason its corporate parent, Alphabet Inc, boasts a market value of $2 trillion (€1.8 trillion).
During the year ending in March, Google received 136 billion monthly visits, 34 times more than ChatGPT's average of 4 billion monthly visits, according to data compiled by onelittleweb.com.
Even Google's own AI mode acknowledged that the company's search engine seems unlikely to be significantly hurt by the shift to AI technology when a journalist from The Associated Press asked whether its introduction would make the company even more powerful.
"Yes, it is highly likely that Google's AI mode will make Google more powerful, particularly in the realm of information access and online influence," the AI mode responded. The feature also warns that web publishers should be concerned about AI mode reducing the traffic they get from search results.

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Euronews

3 days ago

• Euronews

How Japan built the largest-class superconducting quantum computer

Researchers in Japan have developed the world's largest-class superconducting quantum computer. Several hardware types are used to build quantum computers, which use subatomic particles called qubits to increase computing capabilities.. Among them, superconducting quantum computers are the most widely tested, with companies like Google, IBM and Rigetti leading in this technology. The higher the number of qubits, the greater the potential computing power. However, other factors such as noise and error mitigation methods are also essential for building a practical quantum computer. The new quantum system developed by researchers at the Japanese National Research and Development Agency, RIKEN, in collaboration with the Japanese IT giant, Fujitsu, has 256 qubits. For comparison, Google's Sycamore quantum processor uses 70 qubits. IBM has a 1,121-qubit processor called Condor, but it's not broadly available for external users. It is widely thought that it would take one million quibits to realise quantum's full potential. Not only did the researchers deploy one of the largest class superconducting quantum computers, but they also managed to quadruple the density of the qubits by fitting 256 qubits into the casing used for the previous generation quantum computer that used 64 qubits. Researchers credit this fourfold increase in density to a combination of high-density integration technology and an advanced thermal design. They assembled 4-qubit 'unit cells' side by side and layered the connected cells in three dimensions, a technique known as a 3D connection structure. 'Using this structure, we can scale the quantum chip without design change… We can make any size qubit chip using a 3D connect structure,' Yoshiyasu Doi, Senior Researcher, RIKEN RQC-FUJITSU Collaboration Centre, told Euronews Next. Fujitsu says the technique enables efficient scaling of qubits without requiring complex redesigns. Quantum computers must operate in extreme cold temperatures, and larger qubits typically need more space due to heat generation. The new 256-qubit system, housed at the RIKEN RQC-FUJITSU Collaboration Centre in Wako, Japan, includes a cooling system that can reach temperatures as low as 20 millikelvin, close to absolute zero, the coldest temperature possible in nature. 'To implement a larger number of components, thermal heat is a very difficult problem…in the new design, we can reduce the power of the amplifier by over 60 per cent. Heat balance is very important to build a larger system,' said Doi. When building a quantum system, every qubit needs an input and output connection. Scaling entails more complex packaging, cabling, and cryogenic infrastructure to manage those connections. 'One of the key advancements that Fujitsu is demonstrating here is the cabling side, getting into a higher density,' Jonathan Burnett, the deputy director for research at the National Quantum Computing Centre in the United Kingdom, told Euronews Next. While American companies such as IBM and AWS have developed similar high-density cabling and integration, no European group currently has a deployed system with this level of cable density, Burnett says. 'Europe-wide, this would be quite a leap against [it]'. Fujitsu says it aims to launch a 1,000-qubit computer in 2026. 'A 1,000 qubit system is a very cost-consuming device. So at first we have to make the technologies to build such a bigger system… Using this dense design, we can build a larger system, like the 1,000 qubit system,' Doi said. Experts say that scaling is critical to advance the benefits of superconducting quantum computers. 'You start to encounter novel problems… that might only occur because you're trying to do 10 things at once and therefore you don't encounter it if you're never working at that size,' Burnett says. 'The impressive thing that does come from what physics Fujitsu is working on is actually encountering those genuine problems of scale that do come from ultimately operating a kind of larger number,' he added. However, ensuring the quality of qubits is as important as the quantity of qubits. Accessible for research institutions and companies globally The new 256-qubit quantum computer is accessible via a cloud platform for companies and research institutions to run complicated calculations. 'Hybrid quantum platform with this machine and quantum simulator. And we provide such a system to our customers, to our collaborators, such as research institutes all over the world,' Doi said. Fujitsu says it's currently working with four companies in Japan, covering industries from finance to chemicals, and aims to expand these collaborations globally. Other partnerships exist, but the company has not disclosed specific details for confidentiality reasons. Quantum computers hold the promise of advancing drug research, finance, and the discovery of new materials thanks to their unprecedented computing capabilities. However, there is broad agreement within the industry that the journey to fully practical quantum computing remains a long one. One million qubits is often seen as the threshold for fault-tolerant, large-scale quantum computing to solve truly practical and complex problems. In 2023, the UK outlined its Quantum Mission 1 as part of a national roadmap toward useful quantum computing. It estimates that around one million physical qubits will be needed to run real-world algorithms like Shor's, which is often used as a benchmark. However, experts concur that smaller systems are crucial stepping stones. 'We have to proceed [with] quantum technology step by step. To solve practical problems, we have to build a one-million-cubic system…So, in that sense, to develop the 1,000 qubit system is one of the steps,' Doi said. For more on this story, watch the video in the media player above.

Euronews

5 days ago

• Euronews

Scientists test quantum network over the longest distance yet

Scientists in Germany have successfully demonstrated a record-scale quantum communication network using existing infrastructure, a breakthrough that could usher in an 'ultra-secure' connection for quantum computers. Quantum communication is an emerging technology that uses quantum mechanical effects for information transfer. It has attracted significant attention in recent years due to its potential in applications in areas such as quantum computing, secure data transmission, and high precision sensor networks. Up until till now, quantum networks were only feasible at a smaller scale, about half the distance of this new achievement, or in strictly controlled lab conditions with pricy cooling equipment. Researchers at Toshiba Europe sent quantum signals over a 254-kilometre commercial fibre-optic network in Germany, specifically between Frankfurt and Kehl. They used existing telecom infrastructure, standard single-mode fibres already used for today's Internet infrastructure. 'All prior deployments of over-fibre quantum communication were limited to much shorter distances, about half of what we achieved. And this is due to a fundamental limitation of previous technology,' Mirko Pittaluga, the former Senior Research Scientist at Toshiba Europe, told Euronews Next. 'Our experiment is the first real-world implementation of a specific powerful class of quantum communication protocols, which is called coherent quantum communication,' he added. Quantum computing heralds unprecedented potential in improved performance for useful applications like drug discovery and optimisation, thanks to its advanced processing. But such immense computational power can also be used to break traditional encryption. When we use today's Internet to communicate with someone online on a website or via a video call, an encryption key with the counterpart is established. 'The current communication security methods are based on mathematical problems which are presumed to be quite hard for computers to solve and that's a very good assumption with classical computers.' Robert Woodward, the lead of Fibre-Quantum Communications at Toshiba Europe, told Euronews Next. 'But in the quantum era that assumption breaks down and now quantum computers are able to challenge the encryption that we use today,' he added. Experts say, for such advanced tech, we need to build a new network system that will offer the safety and security needed in a post-quantum world. 'Security and privacy are really the backbone of our digital economy and really essential in today's society. So we need to communicate securely,' Woodward said. Quantum has a lot more computational power for certain tasks, but also has the potential to break the way that we currently communicate, he added. 'So what we do in quantum communications is we use quantum as a technology to solve that problem,' he said. Toshiba Europe team's recent experiment demonstrated ultra-secure communications by using single photons of light, a single light particle. 'Because of the use of single photons, we're effectively able to open this new toolbox of quantum mechanics and with it achieve new functions such as ultra-secure communications'. This approach, relying on preserving the phase of light signals over very long distances, has been challenging to do outside a lab. It also required big, complex and expensive equipment, some of which needs to cool down to almost absolute zero, or minus 273 degrees Celsius. 'But with our approach, we overcame all these challenges using scalable and simpler technology, which allowed us to implement a cutting-edge quantum communication protocol, which is called twin field quantum key distribution, which really is the secret sauce of what we did,' Woodward said. Researchers say the standard fibres designed for classical data are actually quite effective at transmitting quantum signals as well, but their inherent losses need to be properly managed. Instead of information flowing in one direction, as in conventional quantum communication, their design allows both users to send quantum signals to a central node where the signals are combined. The novel approach allowed the researchers to double the communication distances and reach a much larger area, all while using the existing fibre infrastructure. Researchers compare the potential of quantum communication with the impact of the transition from copper wires and electronic communication to optical fibre and optical communications. 'What is most striking about what we did is that we did it with very practical and scalable technology, meaning that potentially we could replicate these in the future many, many times and showing that fundamentally these very advanced forms of communication are actually compatible with real-world operational environments,' Pittaluga said. 'And we really think that this is a significant step forward for practical and large-scale quantum networks,' he added. While quantum Internet has been much hyped as the next revolution in the research community, this breakthrough in practical and large-scale quantum networks is more like building blocks toward the quantum internet, the research team explained.. 'We are not yet at the moment of a deployment that is similar to that of the current Internet,' Pittaluga said. 'We implemented a quantum network. So, a network that has this capability of distributing quantum information. And when I think about if we keep growing this capability of implementing quantum networkseventually, we are going to build a very large quantum Internet,' he added. Many countries are racing to build a quantum network and are heavily investing, with China being one of the frontrunners, according to experts. The European Commission aims to develop an EU-wide quantum network via its European Quantum Communication Infrastructure Initiative (EuroQCI). In 2021, EuroQCI was designated a strategic priority, and member states are currently working to develop and deploy links of quantum key distribution (QKD), a highly secure way of exchanging encryption keys. According to Petrus EuroQCI, an EU-funded consortium to oversee national quantum communication infrastructure projects across the continent, the goal is to have an operational pan-European quantum communication infrastructure in place by 2027. For more on this story, watch the video in the media player above. Amazon and the European Parliament are at odds over whether a boss from the US tech giant should appear before a parliamentary committee later this month, sources familiar with the matter told Euronews. The Parliament has made the 26 June hearing at the Employment and Social Affairs Committee (EMPL) a precondition for Amazon regaining access to its premises, after the tech giant's access badges were withdrawn in February last year because the company failed to attend a series of hearings and factory visits in 2021 and 2023 related to workers' rights. The committee has asked London-based Senior Vice President Russell Grandinetti to appear before it. Grandinetti joined the company in 1998 and is now responsible for leading Amazon's international e-commerce business across Europe, UK, Japan, India, China, Brazil, Mexico, Turkey, the Middle East and Australia. In an email exchange seen by Euronews, Amazon responded saying that two other senior officials – Luxembourg-based Stefano Perego, vice president of international operations and global operations services, and Lucy Cronin, a Dublin-based vice president for EU public policy – would be better placed to answer the committee's questions on working conditions. But the committee is resisting those speakers, claiming they don't meet the required level of seniority, and is refusing to accept them. The email did not specify whether the hearing would be cancelled. Euronews understands that the hearing will still go ahead. Other speakers that were scheduled to attend the EMPL hearing were representatives from unions as well as Amazon workers. During a UK parliamentary hearing on the Employment Rights Bill last December, Amazon representatives that attended were directors, a level below Perego and Cronin in terms of seniority. During its previous five-year mandate, the EMPL committee twice invited Amazon to discuss working conditions in its EU facilities. But in May 2021 and January 2024, the company declined the invitations. Planned visits to facilities in Poland and Germany scheduled for December 2023 also never took place. Last November the Parliament said Amazon must attend a hearing and arrange for MEPs to visit one of its fulfilment centres before it would consider lifting the restrictions. Lawmaker Laila Chaibi (France, GUE/NGL) said in a reaction to Euronews that: "Workers are deprived of their rights, they are watched continuously, pressured by their leadership constantly. [...] And once again, when elected representatives ask for a visit, we are blocked, it's easier to visit a prison facility than an Amazon warehouse." Oliver Roethig, Regional Secretary at trade union UNI Europa, echoed this comments and said that decisions about Amazon workers' conditions "are not made in Luxembourg." "They are made at the highest echelons of Amazon's management structure: the S-Team. We demand that Amazon make available S-Team members to be held accountable by the Committee," Roethig added. Amazon said in a previous statement that it treats its responsibilities to the Parliament and other institutions 'seriously', and that it agrees 'that a company such as ours—with over 150,000 employees in the EU alone—should be scrutinised.' 'We also believe that it's important to scrutinise the whole industry in addition to individual companies, and to have sessions that are designed to understand facts, not just make political points,' the statement said. Amazon and the European Parliament were contacted for a comment.

AFP

5 days ago

• AFP

Video of Trump announcing ban on US Tesla production is manipulated

"Trump bans Tesla production in the USA," reads an Instagram post shared June 9, 2025. It includes a video that appears to show Trump saying: "Today I am here to announce that I will be banning the production of all Teslas in the United States of America, effective immediately. As everyone knows, Elon stabbed me in the back a couple of days ago and went crazy on his platform, X." Image Screenshot of the false post taken June 18, 2025 The false clip surfaced after the pair's public falling-out, in which the tech billionaire criticised Trump's so-called "big, beautiful" spending bill on his X account and linked the president with disgraced financier and sex Jeffrey Epstein (archived link). Trump fired back with threats to cancel federal contracts with Musk's companies and warned of "serious consequences" if he sought to punish Republicans who voted for the spending bill. Musk later said he regretted some of his posts, saying they "went too far". The video of Trump's supposed announcement of a Tesla production ban spread alongside similar claims on Facebook, X and Instagram. A reverse image search on Google using keyframes from the false video shows a longer version was published June 8, 2025 on an Instagram called DangerousAi (archived link). The caption says: "Donald Trump BANS Production of Tesla in USA after feud with Elon Musk." Image Screenshot comparison of the clip seen in the false post (L) and on the DangerousAi Instagram page The creator regularly shares clips made with AI on Instagram, Facebook and YouTube (archived here, here and here). His YouTube profile says they are "AI Parody Content", and that he creates the videos using "AI for the voiceover". AFP found no credible reports that Trump has banned Tesla vehicle production in the United States. false video appears to be based on footage from a May 30 press conference at the White House during which Trump thanked Musk for his work as outgoing head of the so-called Department of Government Efficiency (archived here and here). AFP has debunked other AI-generated and manipulated content here.