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Today’s NYT Connections Hints, Answers for July 5 #1120

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Looking for the most recent Connections answers? Click here for today’s Connections hints, as well as our daily answers and hints for The New York Times Mini Crossword, Wordle, Connections: Sports Edition and Strands puzzles.


Today’s NYT Connections puzzle includes some difficult categories. Read on for clues and today’s Connections answers.

The Times has a Connections Bot, like the one for Wordle. Go there after you play to receive a numeric score and to have the program analyze your answers. Players who are registered with the Times Games section can now nerd out by following their progress, including the number of puzzles completed, win rate, number of times they nabbed a perfect score and their win streak.

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Read more: Hints, Tips and Strategies to Help You Win at NYT Connections Every Time

Hints for today’s Connections groups

Here are four hints for the groupings in today’s Connections puzzle, ranked from the easiest yellow group to the tough (and sometimes bizarre) purple group.

Yellow group hint: Crunchy, healthy treat

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Green group hint: Pay up!

Blue group hint: Don’t leave home without it

Purple group hint: 23rd letter in the alphabet

Answers for today’s Connections groups

Yellow group: Granola ingredients

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Green group: Payment methods

Blue group: AmEx card types

Purple group: What “W” might stand for

Read more: Wordle Cheat Sheet: Here Are the Most Popular Letters Used in English Words

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What are today’s Connections answers?

completed NYT Connections puzzle for July 5, 2026

The completed NYT Connections puzzle for July 5, 2026.

NYT/Screenshot by CNET

The yellow words in today’s Connections

The theme is granola ingredients. The four answers are honey, nuts, oats and seeds.

The green words in today’s Connections

The theme is payment methods. The four answers are card, cash, check and wire.

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The blue words in today’s Connections

The theme is AmEx card types. The four answers are Centurion, gold, green and platinum.

The purple words in today’s Connections

The theme is what “W” might stand for. The four answers are tungsten, West, win and with.

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Lenovo Yoga Slim 7x Gen 11 Review

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Verdict

The Lenovo Yoga Slim 7x Gen 11 is a lovely Windows laptop with a lot of power with its Snapdragon X2 Elite SoC, plus it comes with a comfortable keyboard, dazzling OLED screen and immense endurance. It is rather expensive in the top configuration, though, and the port selection feels a bit one dimensional.

  • Lightweight and stylish finish

  • Increased grunt from Snapdragon X2 Elite chip

  • Excellent battery life

  • Dearer than rivals in top-spec

  • One-dimensional port selection

Key Features

  • Trusted Reviews IconTrusted Reviews Icon

    Review Price:
    £1669.99

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    Snapdragon X2 Elite inside

    The new Yoga Slim 7x Gen 11 packs a lot of power into a small chassis with its use of Qualcomm’s new Snapdragon X2 Elite processor.

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    14-inch 3K 120Hz OLED screen

    It also has a high-res and high refresh rate OLED screen for added razzle-dazzle.

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    70Whr battery

    This Lenovo laptop also has a large battery inside to help you power through work over multiple days.

Introduction

The Lenovo Yoga Slim 7x Gen 11 updates its longstanding line of excellent all-round ultrabooks with quite a boost in power.

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The headline here is Qualcomm’s new Snapdragon X2 Elite SoC that touts a large boost in overall power against the original model, which comes alongside 32GB of RAM and a generous 2TB SSD in my sample. That comes built around a fetching blue metal chassis with a 14-inch 3K 120Hz OLED screen and large 70Whr battery.

It all sounds very promising, although Lenovo has quite the competition to overcome with its latest model. The Asus Zenbook A14 (2026) has a similar spec sheet and has been out and about for a few weeks, while there’s also the Acer Swift Edge 14 AI and of course the Apple MacBook Air M5 to worry about. Prices start at £1050/$1199 for a Snapdragon X2 Plus-equipped base model, with my tricked out sample costing £1669.99/$1899.99, making things very interesting indeed.

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I’ve been putting the Yoga Slim 7x Gen 11 through its paces for the last couple of weeks to see if it’s one of the best laptops we’ve tested.

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Design and Keyboard

  • Gorgeous and sturdy construction
  • Meagre port selection
  • Responsive keyboard and trackpad

One area about the Yoga Slim 7x Gen 11 I’m both relieved and surprised that hasn’t shifted too much is its overall design. I like the dark blue finish it retains, plus a metal chassis that provides a quality finish. If you’re after a Windows laptop that looks like a midnight blue MacBook Air, then this is a dead cert.

At 1.17kg, it’s quite light for a 14-inch laptop, and its compact form factor makes it especially easy to carry around. I am splitting hairs a little bit, but it isn’t quite as light as the Asus Zenbook A14 (2026) and Acer Swift Edge 14 AI, both of which push towards the sub-1kg mark, and you can feel it when you pick the laptop up.

Left Ports - Lenovo Yoga Slim 7x Gen 11Left Ports - Lenovo Yoga Slim 7x Gen 11
Image Credit (Trusted Reviews)

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The Yoga Slim 7x Gen 11 is just 13.9mm thick, which makes it slender and svelte, but has the unintended consequence of reducing its port selection down. We’ve got three USB4-capable Type-C ports in total, with two on the left and one on the right. It’s modern and fast, but a bit too one-dimensional. 

This comes at a time when Asus’ rival is slightly thinner at 13.3mm, and manages to pack in a pair of USB-C ports, a full-size HDMI, a USB-A port and a 3.5mm headphone jack. As I said then, the Zenbook A14 (2026) is more Pro than Air, and it’s clear to see which side Lenovo has opted for.

Keyboard & Trackpad - Lenovo Yoga Slim 7x Gen 11Keyboard & Trackpad - Lenovo Yoga Slim 7x Gen 11
Image Credit (Trusted Reviews)

The Yoga Slim 7x Gen 11 excels with its keyboard in typical Lenovo fashion, though. It’s a quiet, tactile scissor-actuated offering with Lenovo’s typical deep-dish keycaps that feel brilliant to use for extended periods, while its bright white legends are big and easy to read. The smaller form factor is fine, too, while its white underglow backlighting provides vibrancy for after-dark working.

As for the trackpad, it’s got a glossy, smooth texture to it in a similar vein to a lot of modern ultrabooks, while it’s also quite large for a laptop of its size, providing your fingers with a lot of real estate.

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Display and Sound

  • A couple of different screen choices
  • Excellent brightness, contrast and black level
  • Surprisingly competent speakers

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Lenovo is offering the Yoga Slim 7x Gen 11 with a couple of different display variants, both of them OLED, and both of them 14-inches in size.

The base model comes with a 1920×1200 resolution 60Hz touch-enabled panel, while the higher-end variant I have ups the resolution to 2880×1800 (or 3K), the refresh rate to 120Hz and its rated peak brightness. Weirdly, though, it eschews touch capabilities but retains a lay-flat hinge for collaborative working.

In practice, though, it’s a capable screen with deep blacks and lovely contrast, as measured by my colorimeter. Here, I measured a 0.03 black level and 17250:1 contrast ratio. A 6700K colour temperature is also right where it should be.

Screen - Lenovo Yoga Slim 7x Gen 11Screen - Lenovo Yoga Slim 7x Gen 11
Image Credit (Trusted Reviews)

We’re also seeing sharp brightness, with a measured peak SDR of 480.2 nits, making it a capable panel for indoor and outdoor work, while also helping displayed images pop, given the black level and contrast ratio results. Lenovo also touts this screen to offer up to 1000 nits of HDR brightness alongside DisplayHDR 1000 True Black certification.

The Yoga Slim 7x Gen 11’s panel also impresses with its excellent colours. I saw perfect 100% coverage of both the sRGB and DCI-P3 spaces, plus an excellent 92% coverage of the trickier Adobe RGB gamut. This makes this screen suitable for productivity and more colour-sensitive workloads alike.

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Screen - Lenovo Yoga Slim 7x Gen 11Screen - Lenovo Yoga Slim 7x Gen 11
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Lenovo has opted for an upward-firing four-speaker array for this laptop, with two woofers and two tweeters. This helps to provide a full and quite rich sound for a set of laptop drivers with decent mids and good volume.

Performance

  • Beefier Snapdragon X2 Elite processor
  • Improved integrated graphics
  • Capacious RAM and SSD arrangement

Lenovo’s last Yoga Slim 7x laptop I tested came with one of Qualcomm’s first-gen Snapdragon laptop SoCs, and it’s arguably inside where the biggest gains have been made with this latest model.

For 2026, the Yoga Slim 7x Gen 11 I have is supplied with Qualcomm’s new Snapdragon X2 Elite processor, the second-in-command to the Snapdragon X2 Elite Extreme. There are two variants of this processor available to manufacturers, with 12-core and 18-core options – the variant I have ships with the latter. For the base model, Lenovo is also offering the Snapdragon X2 Plus, which we haven’t tested just yet.

Logo - Lenovo Yoga Slim 7x Gen 11Logo - Lenovo Yoga Slim 7x Gen 11
Image Credit (Trusted Reviews)

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The difference between this chip and the Snapdragon X2 Elite Extreme you’ll find in the likes of the Asus Zenbook A16 (2026) appears to be clock speeds, with this chip rated for a max boost clock across single or dual cores of 4.7GHz (against the Elite Extreme’s 5GHz) and a max multi-core frequency of 3.4GHz (against the Elite Extreme’s 3.6GHz).

Qualcomm is touting major gains in both single and multi-core performance with this new 18-core chip, which I’d certainly wager is true in comparing it to laptops with the Snapdragon X Elite chip.

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Profile - Lenovo Yoga Slim 7x Gen 11Profile - Lenovo Yoga Slim 7x Gen 11
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As you’d expect, the numbers here aren’t quite as strong as with the Snapdragon X2 Elite Extreme SoC, but the difference is only a few percentage points in the synthetic benchmarks in real terms. It is much the same story, though, with especially high single-core scores in Geekbench 6 that push this laptop into Apple Silicon territory for comparison, plus much-improved multi-core scores, too. 

The improvements in Cinebench R23 are slightly more modest and peg this laptop back a smidgen, but there are nonetheless some substantial improvements to be proud of in synthetic terms against the original Snapdragon X Elite chip.

Lid - Lenovo Yoga Slim 7x Gen 11Lid - Lenovo Yoga Slim 7x Gen 11
Image Credit (Trusted Reviews)

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There is also a major improvement to the Adreno iGPU with the Snapdragon X2 Elite, which provided a doubling in the 3DMark Time Spy test and brings it more into line with more recent iGPUs fitted to x86-based laptop chips from Intel and AMD. 

My sample of the Yoga Slim 7x Gen 11 came quite a generous RAM and storage configuration, with 32GB of fast DDR5 RAM provided and a hefty 2TB SSD. In testing, it also proves to be a brisk PCIe Gen 4 option, with reads and writes of 7144.32 MB/s and 6721.86 MB/s, respectively.

Software

  • Clean Windows 11 install with Copilot+ PC AI smarts
  • Minimal Lenovo-specific software
  • Small compatibility issues, being Arm-based

For its software situation, the Yoga Slim 7x Gen 11 comes with a reasonably clean Windows 11 install with minimal pre-installed apps, including McAfee antivirus. There are some Lenovo-specific system apps here, including the catch-all system app Lenovo Vantage in the taskbar, but that’s about it.

There is also enough AI horsepower from the Snapdragon X2 Elite chip inside to mark this laptop as a Copilot+ PC, providing access to Microsoft’s AI functionality for generative powers and filters in the Photos and Paint app, as well as the clever Windows Studio webcam effects for background blurring, auto framing and maintaining eye contact. With the latest version of Windows 11, there is also the controversial Microsoft Recall feature.

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Logo - Lenovo Yoga Slim 7x Gen 11Logo - Lenovo Yoga Slim 7x Gen 11
Image Credit (Trusted Reviews)

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Being Arm-based, the Yoga Slim 7x Gen 11, also has the problem of having minor issues with some compatibility.

This is because Windows is traditionally run on x86-based systems, so to work on Arm, apps have had to be translated through Microsoft’s Prism translation software. For the most part, I had little in the way of issues with compatibility in running a range of benchmark software, as well as Photoshop and similar apps. Qualcomm has also worked with lots of brands to increase overall app compatibility with its latest Arm-based laptop chips against the original run from last year. 

As with other Arm-based Windows laptops I’ve looked at, the PCMark 10 benchmark app doesn’t run fully, but that’s an issue we’ve seen on other Arm-based Windows systems

Battery Life

  • Lasted for 19 hours 42 minutes in the battery test
  • Capable of lasting for two to three working days

Lenovo has put a hefty 70Whr battery inside the Yoga Slim 7x Gen 11, which, combined with the excellent efficiency that these Qualcomm chips have traditionally yielded, should result in some fantastic battery life.

In dialling the brightness down to the requisite 150 nits and running a video loop test in PCMark 10, this Lenovo laptop lasted for 19 hours and 42 minutes – that’s just about enough for three working days with some hypermiling. For reference, that’s one of the best results I’ve seen in recent times, matching the likes of the Acer Swift Edge 14 AI and the Asus Zenbook A14 (2025). The new Zenbook A14 (2026) is nearly three hours ahead, though, and uses the same SoC as this Lenovo choice.

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The Yoga Slim 7x Gen 11 comes with a reasonably compact 65W charger that’s also quite fast at getting charge back into the laptop. It took around 40 minutes to get it back to 50%, while a full charge took 75 minutes or so.

Should you buy it?

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You want oodles of power in a lightweight chassis

The Yoga Slim 7xGen 11 packs a lot of performance with its Snapdragon X2 Elite processor into a slender and lightweight chassis.

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The three USB-C ports Lenovo provides are okay, although it feels quite one dimensional against rival choices from Acer and Asus that are much more rounded.

Final Thoughts

The Lenovo Yoga Slim 7x Gen 11 is a lovely Windows laptop with a lot of power from its Snapdragon X2 Elite SoC, plus it comes with a comfortable keyboard, dazzling OLED screen and immense endurance. It is rather expensive in the top configuration, though, and the port selection feels a bit limited.

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The Asus Zenbook A14 (2026) is the closest competitor, as it ships with the same SoC as Lenovo’s choice, albeit at a slightly lower £1599 price tag. There is a compromise with a 1920×1200 OLED screen being lower-res, although it gains against the Yoga Slim 7x Gen 11 in battery life and port selection. 

The Acer Swift Edge 14 AI offers similar computing power with its Intel Lunar Lake SoC, plus a similarly high-res OLED screen and a richer port selection, and is actually the cheapest of the three at £1399, making it a quietly unsung hero in the range of modern ultrabooks.

WIth this in mind, I think the Lenovo Yoga Slim 7x Gen 11 is a lovely laptop, and a lot of it is in part due to the Snapdragon X2 Elite chip inside, but rising costs mean it suffers the same price-driven criticism as the Samsung Galaxy Book6 Pro and the Asus Zenbook A14 (2026), not least with the other options offering similar spec sheets for less money. For more options, check out our list of the best laptops we’ve tested.

How We Test

This Lenovo laptop has been put through a series of uniform checks designed to gauge key factors, including build quality, performance, screen quality and battery life. These include formal synthetic benchmarks and scripted tests, plus a series of real-world checks, such as how well it runs popular apps and extensive gaming testing.

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FAQs

What’s different between the Lenovo Yoga Slim 7x Gen 11 and the Lenovo Yoga Slim 7x Gen 10?

The Lenovo Yoga Slim 7x Gen 11 comes with a newer and faster Snapdragon X2 Elite processor, plus a stronger OLED screen, webcam and better battery life. It’s also a lot more expensive in terms of RRP.

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Test Data

  Lenovo Yoga Slim 7x Gen 11

Full Specs

  Lenovo Yoga Slim 7x Gen 11 Review
UK RRP £1669.99
USA RRP $1899.99
CPU Qualcomm Snapdragon X2 Elite
Manufacturer Lenovo
Screen Size 14 inches
Storage Capacity 2TB
Front Camera 1080p IR webcam
Battery 70 Whr
Battery Hours 19 42
Size (Dimensions) 312 x 221 x 13.9 MM
Weight 1.17 KG
Operating System Windows 11
Release Date 2026
First Reviewed Date 17/06/2026
Resolution 2880 x 1800
HDR Yes
Refresh Rate 120 Hz
Ports 3x Thunderbolt 4 USB-C ports
GPU Qualcomm Adreno iGPU
RAM 32GB
Connectivity Wifi 7, Bluetooth 5.4
Colours Cosmic Blue
Display Technology OLED
Touch Screen No
Convertible? No

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NYT Connections hints and answers for Sunday, July 5 (game #1120)

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Looking for a different day?

A new NYT Connections puzzle appears at midnight each day for your time zone – which means that some people are always playing ‘today’s game’ while others are playing ‘yesterday’s’. If you’re looking for Saturday’s puzzle instead then click here: NYT Connections hints and answers for Saturday, July 4 (game #1119).

Good morning! Let’s play Connections, the NYT’s clever word game that challenges you to group answers in various categories. It can be tough, so read on if you need Connections hints.

What should you do once you’ve finished? Why, play some more word games of course. I’ve also got daily Strands hints and answers and Quordle hints and answers articles if you need help for those too, while Marc’s Wordle today page covers the original viral word game.

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Databricks unifies OLTP and OLAP, depending on what counts as a copy

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When Databricks claimed to have cracked an age-old database problem, it came with a clear marketing message: “One data, zero compromises, zero copies.” Inevitably, that led engineers to search for clarity. After all, the company claimed to have unified OLTP and OLAP with “no data duplication.”

Databricks, which was founded around the open source unified analytics engine Apache Spark, called its invention LTAP, which stands for lake transactional/analytical processing. It works with Reyden – a new compute engine – and Lakebase, its serverless PostgreSQL on open object storage.

Databricks is attempting to address a fundamental database challenge. OLTP (online transactional processing) performs small, row-oriented reads and frequent writes, while OLAP (online analytical processing) performs large, column-oriented reads and batch writes. Down to the physical level, it is challenging to get the two to coexist in a single system. The issue is seen as more pressing now as the database market chases workloads created by the booming deployment of AI agents, both in software development and business applications.

What did Databricks claim? The publicity material said that rather than forcing both OLTP and OLAP workloads into one engine or concealing the pipeline, it unifies data at the storage layer, thereby unifying transactions, analytics, streaming, and operational data on a single copy of storage in the data lakehouse, a concept Databricks created to describe the marriage of data lakes and data warehouses.

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Does that mean there are “zero copies” of the data, as claimed in several promotional LinkedIn pieces and a Forbes CEO interview? Well, not quite.

The transactional side of LTAP is based on Databricks’ first fully managed PostgreSQL database, Lakebase, which in turn is based on technology from Neon, which Databricks bought last year to provide copy-on-write branching and autoscaling serverless compute.

In his search for clarity, one data engineer in financial services posted that LTAP proposes that the current PostgreSQL data stays in the pageserver format as local storage then is propagated to object storeage for long-term durability in the Parquet file format, where it can be queried in a columnar format. PostgreSQL/Lakebase can retrieve data from the object store and reconvert the Parquet data to a pageserver if it needs data from cold storage. In this way, Databricks has “unified” the OLTP storage and OLAP storage.

“Two copies of data, not one,” quipped one commenter from a Databricks rival.

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Slides made available at a PostgreSQL conference in May make the link clear. Under the header “Analytics directly on OLTP data,” Databricks engineers Hristo Stoyanov and Jonathan Katz said that pageserver provides storage while the Spark analytics executor pulls layer files containing full page images from the image layers in object storage.

On a private messaging community seen by The Register, one Databricks engineer responded to the question about whether there was one copy of the data or two copies in object storage and pageservers respectively. Technically two, they responded, since pageservers act as a cache or materialization layer in the Neon architecture. PostgreSQL reads from pageservers, while the analytics engine reads PostgreSQL pages from object storage (Apache Parquet or Iceberg table format) and pageservers.

Databricks is far from alone in trying to crack this nut. Unifying OLTP and OLAP has been tried before, and solved, according to some companies. For example, in 2014, SingleStore began working on an in-memory row store and an on-disk column store with tiered storage, “meaning transactions hit memory first and then they roll off to disk storage,” allowing analytics and transactions on a single system. It launched a cloud database service (on AWS, Azure, or GCP) in 2020, which “automatically manages data across a three-tiered storage architecture comprised of memory, local cache, and storage.” It moves data “seamlessly” between memory, persistent cache, and object storage without the user being aware, the company says.

Not surprisingly, SingleStore was quick to post its reaction to Databricks’ claim that hybrid transactional/analytical processing (HTAP) had effectively failed.

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“You don’t get to call HTAP a failure and then spend the next 20 minutes describing why the world needs exactly what HTAP promised. Unifying OLTP and OLAP so an agent can read and write in one place is the HTAP goal, whatever you print on the slide. Renaming it LTAP changes the marketing. It doesn’t change the physics, and it doesn’t retire the questions,” SingleStore CTO Nadeem Asghar said in a blog post.

He pointed out that Databricks’ claim of “one copy” of the data is about storage, not about the engine. “Three engines still sit on top, each with its own cache, its own sense of how fresh the data is, and its own way of failing at the worst possible moment. Databricks’ own framing: a row layout and a columnar layout are different things. If a write lands in a row representation for Postgres and analytics reads a columnar representation, then you have two physical shapes of the same data, and something has to keep them in step,” Asghar said.

There are other examples of efforts to bring together analytics and transactional systems. MongoDB offers column-store indexes to help developers build analytical queries into their applications. Oracle’s HeatWave for MySQL runs on Oracle Cloud Infrastructure and helps customers run analytics on transactional applications without having to export data to a specialist analytics system such as Teradata, Snowflake, or AWS Redshift. SAP has talked about real-time analytics since 2011, and bases its concept around its in-memory database, HANA, which supports the latest iteration of SAP’s enterprise applications.

Databricks maintains its “zero copy” claim is true because it avoids having two authoritative copies of the data that need to be kept in sync.

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In a statement to The Register, a Databricks spokesperson said: “In LTAP, the user only operates on one authoritative copy of the data. [It has] one source of truth data in Iceberg (an open source table format which contains Parquet files). Yes, any database system, even a single individual database, always has many intermediate internal copies of data, ranging from memory L1/L2/L3 cache, to DRAM memory, to non-volatile storage, to blob storage etc. This is referred to as ‘the database storage hierarchy.’”

In presentations at its recent conference, Databricks qualifies the claim in several ways. There’s only one “authoritative” copy of the data, or there is one copy of the data “in storage” or “in the lake.” In effect, it is the same approach SingleStore employs when it says its storage tiers are “transparent to the user.”

Regardless of the marketing ding-dong, Databricks has done some impressive engineering in the way its new Lakehouse execution engine, Reyden, can read PostgreSQL pages, according to Andy Pavlo, associate professor of databaseology at Carnegie Mellon University.

“They are copying data out eventually,” he told The Register. “But initially Databricks is able to have the Neon/PostgreSQL front end read the writes as it normally would, but then the Reyden engine can read those writes, and that part is not easy.”

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“The Reyden analytics engine has the ability to now interpret the contents of the PostgreSQL pages, which is a non-trivial thing to do, because the pages are not entirely self-contained, meaning that information about what you’re allowed to see, or even what the data is, is stored in separate pages, so they have the mechanism to then go back into Neon/PostgreSQL and get that metadata from the catalog.”

“Anybody can go and read a PostgreSQL page. It’s not hard to write code to read a single page of data. The challenging part is being able to understand what you’re allowed to see or what the query is allowed to read from that page, because they intermix all the different versions, then [Databricks] has got to resolve that as well. All that is not trivial.”

“Basically, it allows you to do faster analytics, or more timely analytics, without the delay of waiting for things to get shoved out to S3 and you do it in a transaction-safe manner.”

Meanwhile, the Reyden analytics engine is stateless and can scale horizontally “very well” by adding more compute, Pavlo said.

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Databricks might have produced some impressive technology by bringing transactional and analytic workloads closer together. But in the way it presents its work, critics might argue it should be careful what it wishes for. It would be a shame if its overzealous marketing claims cast a shadow over its significant engineering achievements. ®

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This is our best look yet at what the Samsung Galaxy Glasses could look like

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Renders of Samsung’s long-rumoured Galaxy Glasses have appeared in a short video that gives us an interesting look at the company’s first Android XR smart glasses.

Shared by SamMobile, the 27-second clip focuses on the glasses’ design rather than their software. Nevertheless, it shows hardware details that previous leaks haven’t shown this clearly before. This doesn’t look like an official video, more likely a generated video based on leaks.

The video shows a fairly understated design with square lenses and slim arms. This look is closer to a regular pair of glasses than many existing smart glasses.

A touch-sensitive area appears on the right temple, alongside a dedicated power button, while an LED indicator is also visible.

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On the opposite side sits what appears to be a built-in camera. Consequently, this suggests Samsung is leaning into both mixed reality and everyday photography features.

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While the leaked video doesn’t reveal any new specifications, it lines up with previous reports about what will power the wearable. The Galaxy Glasses are expected to use Qualcomm’s Snapdragon AR1 platform and pair with Wi-Fi and Bluetooth 5.3 connectivity to link with compatible devices.

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The timing of the leak is also notable. Samsung will likely unveil – or at least tease – the Galaxy Glasses during its next Galaxy Unpacked event in London on July 22, alongside its latest foldable phones and wearables. This will also see the launch of the much-rumoured wide Galaxy Fold.

Although Samsung has yet to officially confirm the smart glasses, the appearance of this video suggests the launch isn’t far away. If the leaks are accurate, the Galaxy Glasses could become one of the first mainstream devices to showcase Google’s Android XR platform.

This would give Samsung a direct competitor to the growing number of AI-powered smart glasses entering the market.

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AI bills are baffling the C-suite after shift to usage-based pricing

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AI AND ML

KPMG finds nearly a third of execs struggle to understand costs as companies rethink deployments

Nearly a third of corporate leaders report difficulty understanding and controlling operating costs when implementing business AI at scale, according to a survey from KPMG.

In recent months, Anthropic, OpenAI, and GitHub have shifted some services away from flat-rate subscriptions toward usage-based billing.

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“As usage-based pricing models become more common, many organizations are still building the capabilities required to forecast, monitor, and manage AI spending effectively,” KPMG said.

The survey of 2,145 senior leaders across 20 countries found that 29 percent struggle to understand their operating costs as they scale their enterprise AI deployments.

A third of senior corporate leaders also identified limited understanding of AI costs and economics as a challenge to deploying AI agents.

Businesses are rethinking their AI plans in the face of changing cost structures and rising fees. The research also found nearly half of organizations have rephased AI deployments when costs have outweighed the expected value. Lower-cost, high-fidelity models are the fastest-growing influence on AI strategy, up 7 percentage points from Q1.

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“These actions do not signal reduced confidence in AI. Rather, they suggest a growing willingness to evaluate where AI creates meaningful value and where it does not. Organizations appear increasingly focused on concentrating investment where expected returns are strongest,” the report said.

Amazon plans capital expenditure of around $200 billion this year, largely to provide capacity for AI in its AWS datacenters, an increase of 50 percent on a year earlier. Microsoft’s total capex is expected to reach $190 billion, up 61 percent from the previous year.

Both companies are now investing significantly in forward-deployed engineering to help customers develop AI applications that will generate demand for the capacity being built.

Amazon has announced a $1 billion investment in an AWS Forward Deployed Engineering organization help customers adopt AI agents and reduce timelines for deployment.

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Microsoft is providing $2.5 billion in funding for a new operating entity called Microsoft Frontier Company, “enabling customers to amplify their IQ with AI while refining their differentiated value in the markets that they serve.”

In the KPMG report, challenges remain around AI governance: the question of who takes responsibility for decisions made by statistical models prone to erroneous outputs – or “hallucinate,” as tech vendors would prefer.

KPMG said executive accountability is important, but “governance ultimately succeeds or fails through day-to-day operating practices.”

“Organizations need clear rules for when employees can intervene, who owns AI-related costs, how AI outputs are reviewed and what happens when systems fail. While most organizations report having at least some governance mechanisms in place, relatively few describe these practices as fully embedded,” the report said.

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Perhaps the tech consultancy and services giant speaks from experience. Last month, research outfit GPTZero claimed a forensic review of KPMG’s October 2025 report, “Total Experience: Redefining Excellence in the Age of Agentic AI,” found that only five of its 45 citations pointed accurately to the cited source. The rest contained errors ranging from misleading or invented details to references that were too vague to verify.

KPMG later removed the report from some of its websites and issued a statement.

“KPMG International takes the accuracy and integrity of its published content seriously. The report has been removed and we are reviewing the circumstances surrounding its publication. We expect all our people to follow our guidelines on the responsible use of AI, including human oversight to validate content and verify independent sources,” a spokesperson said. ®

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Submit Your Questions: Inside The World of Online Romance Scams

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For our very first WIRED Book Club livestream, Kate Knibbs will be joined by the author of The Yahoo Boys: Love, Deception, and the Real Lives of Nigeria’s Romance Scammers, Carlos Barragán.

Barragán, a journalist and researcher at The New York Times, flew to Lagos to embed himself with a group of young, desperate grifters. The account he brings back is a funny, sad, enraging read about how the internet can fuel heartbreak.

On the Panel

  • Kate Knibbs: senior writer at WIRED, covering prediction markets, the future of media, and how AI is changing the internet. She also leads WIRED Book Club.
  • Carlos Barragán: reporter and researcher for The New York Times based in Madrid. He was formerly a reporter at El Confidencial before receiving his MFA in nonfiction writing from Columbia University. The Yahoo Boys is his first book.

Ask a Question

Submit your burning questions about the book in the comments section below. The event will be streamed right here, so bookmark this page and mark your calendar to return on July 16 at 12pm ET / 9am PT.

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How to Watch

This livestream is reserved as a subscriber benefit. For subscribers who are not able to join, a replay of the livestream will be available after the event. Not a subscriber yet? Subscribe now to get access to this livestream, plus full access to WIRED.

Join WIRED Book Club

If you’d like to start following along, you can catch up on past weeks discussions, and sign up for WIRED Book Club here.

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In the meantime, check out past livestreams on how AI is changing work, big tech and the military, and more.

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New DNA Tech Identifies Soldier Killed in America’s Revolution in 1780

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South Carolina’s pine forests “have spent centuries hiding a secret as old as America itself,” reports CBS News:

In August 1780, British and American soldiers clashed there, leading to a terrible defeat for the Continental army [fighting for the 13 colonies rebelling against England]. Battlefield archaeologists Jim Legg and Steve Smith have been studying the site for decades, but recently, they made a shocking discovery: The sandy soil was home to several sets of remains buried in shallow graves. Metal buttons suggested the men had been Continental soldiers, but there was no other identification… About 2,000 Continental soldiers were killed, wounded or captured, and some men never returned home.

Their families could only guess at their fates. But Legg and Smith’s discovery, paired with an explosion in DNA technology, is changing what’s possible. A set of remains, previously known only as 9B, has been identified as John Pumphrey, a young man from Maryland who enlisted in the Continental Army’s 7th Maryland Regiment as young as 13… Pumphrey likely marched more than a thousand miles with the regiment. The unit fought in battles with then-Gen. George Washington in New Jersey and Pennsylvania.

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Pumphrey likely marched more than a thousand miles with the regiment. The unit fought in battles with then-Gen. George Washington in New Jersey and Pennsylvania. In late June, members of the extended Pumphrey family came together to hear his story and say his name for the first time in centuries. His remains are interred in South Carolina, where he and the other soldiers were discovered, but the tombstone, once marked “Unknown,” will soon have his name carved on it.

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How Data Centers Grid Instability Threatens Reliability

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The rapid expansion of artificial intelligence infrastructure is typically framed as an energy problem. Data centers are projected to consume a growing share of global electricity demand: The International Energy Agency estimates they could account for 3 to 4 percent of total global consumption within this decade.

Utilities are already adjusting long-term forecasts to accommodate anticipated growth from hyperscale facilities and high-density compute clusters.

This framing captures scale. It misses behavior.

The emerging issue is not simply how much power large-scale compute systems consume, but how increasingly dense and synchronized computational workloads are beginning to alter the operating characteristics of the electrical grid itself through increasingly unpredictable demand that varies rapidly in both time and location, creating new operational challenges for grid operators.

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AI’s capricious energy needs

Traditional grid planning assumes relatively predictable demand behavior. Industrial, commercial, and residential loads generally follow established profiles that can be forecast with reasonable accuracy. Even substantial demand growth has historically been manageable through reserve planning, transmission upgrades, and demand management programs.

Large-scale compute infrastructure introduces a different class of electrical load. Training—the computational task of making AI models—tends to be highly synchronized across clusters of GPUs, TPUs, and specialized accelerators operating in parallel, computationally dense, and relatively scheduled. Inference—the process of actually using those models—is generally more distributed and user-driven, making demand less predictable both in time and location. Both differ materially from traditional industrial demand profiles, though for different reasons. Unlike many conventional industrial processes, these workloads can ramp rapidly depending on model training cycles, distributed compute coordination, and workload scheduling strategies.

From the perspective of the grid, this is not simply higher demand. It is more abrupt demand. High-density compute workloads can produce substantial step-changes in electricity consumption over extremely short intervals, including rapid fluctuations occurring within milliseconds. Data center operators are already deploying mitigation technologies, including batteries, power-conditioning systems, and supercapacitors. Collectively, however, data centers’ rapid load changes can place additional stress on backup generation reserves, systems that adjust supply as demand changes, frequency-control mechanisms that maintain grid stability, and local transmission infrastructure.

Compute-related variability differs from the intermittency introduced through renewable energy integration. Wind and solar variability originate primarily on the supply side and is tied to environmental conditions. Compute-related variability emerges on the demand side, driven by workload synchronization, scheduling behavior, and computational intensity. The interaction between increasingly dynamic supply and demand conditions introduces additional uncertainty into forecasting, reserve management, congestion planning, and balancing operations.

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Research organizations including the National Renewable Energy Laboratory (NREL) have emphasized the growing complexity associated with integrating highly dynamic resources into modern grid operations.

Location, location, location

The issue becomes more significant when compute activity is geographically concentrated. Large-scale data centers tend to cluster in regions with favorable conditions such as fiber connectivity, access to markets, tax incentives, and historically low electricity costs. Northern Virginia, often referred to as “Data Center Alley,” remains the most prominent example. The region hosts the world’s largest concentration of data centers and carries a substantial share of global internet traffic.

Utilities operating in these regions have already identified data center growth as a primary driver of future load expansion. Virginia-based electricity supplier Dominion Energy, for example, has repeatedly highlighted hyperscale demand growth in its integrated resource planning documents.

Aerial view of sprawling data center and warehouse complex surrounded by greenery Virginia has seen one of the largest data center buildouts worldwide. Here, Amazon Web Services and iron mountain data centers dominate the landscape in Manassas, Virginia. Nathan Howard/Bloomberg/Getty Images

A sudden increase in electricity consumption within a constrained geographic area can stress substations, transmission corridors, and local balancing operations even if the broader grid maintains sufficient aggregate capacity. This creates localized reliability challenges that are not always visible through system-wide demand metrics alone.

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Thermal management systems further intensify these effects. Cooling infrastructure in high-density compute facilities must respond dynamically to changing workloads. As processing intensity rises, cooling demand rises with it, often nonlinearly. This coupling between compute and thermal systems means that fluctuations in workload can propagate through multiple layers of facility power consumption simultaneously.

High-density compute clusters may also introduce power quality concerns at the local level. Large concentrations of accelerators, switching power supplies, and high-frequency compute equipment can generate harmonics and nonlinear load behavior that place additional stress on distribution infrastructure. While modern facilities incorporate mitigation technologies, the scale and concentration of next-generation compute facilities may require utilities and operators to revisit assumptions surrounding localized power conditioning, harmonics management, and infrastructure resilience. These conditions can also contribute to short-duration electrical transients that place additional stress on localized infrastructure and power-conditioning systems.

Regulations need updating

Part of the challenge is that many existing regulatory and operational frameworks were designed around relatively stable industrial demand profiles. Large rapidly fluctuating loads have historically been constrained because abrupt cycling can complicate balancing operations, increase stress on transmission equipment, and reduce predictability in system operations. High-density compute clusters do not fit neatly within those assumptions.

This creates pressure for both operational adaptation and regulatory reassessment.

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Demand response mechanisms may allow certain compute workloads to be shifted or curtailed during periods of system stress. Data-center operators are exploring flexible scheduling, battery storage, and behind-the-meter generation. Grid operators, meanwhile, are evaluating planning frameworks and interconnection approaches for increasingly large flexible loads.

The Electric Reliability Counsil of Texas (ERCOT), for example, has publicly acknowledged the growing implications of large flexible loads, including data centers, for long-term grid planning and operational stability. Interconnection queues across the United States continue to expand significantly, reflecting mounting pressure on both generation and transmission infrastructure. Grid expansion timelines, however, are measured in years rather than quarters.

This creates a structural mismatch. Compute infrastructure can scale rapidly. Electrical infrastructure generally cannot.

The broader implication is that large-scale compute infrastructure is not simply another industrial load category. It represents a shift in the temporal and spatial characteristics of electricity demand itself.

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Framing the issue solely in terms of aggregate energy consumption risks overlooking these second-order operational effects. Capacity expansion alone does not fully address rapid ramping behavior, synchronization, localized congestion, transient instability, reserve compression, or increasingly demanding load-following requirements.

The challenge is not just how much electricity these systems consume. It is how they are beginning to change the operating conditions of the grid itself. The call is not to slow AI development but to recognize that hyperscale computing represents a new category of electrical demand. As AI infrastructure continues to scale, planning frameworks may need to account not only for total energy consumption but also for demand volatility, synchronization effects, and geographic concentration. Grid resilience will increasingly depend on understanding how these facilities consume power, not simply how much power they consume.

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A 10-Year Sky Survey Begins Filming A ‘Cosmic Movie,’ Cyborg Cockroaches Go For A Dive And More Science Stories

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This week marked the beginning of the Vera C. Rubin Observatory’s Legacy Survey of Space and Time, a massive effort to observe the sky that comes more than two decades in the making. It could help us to better understand our own solar system and the mysteries of the cosmos, from dark energy and dark matter to the expansion of the universe. Read on to learn more about that, plus other science news that grabbed our attention this week.

The Vera C. Rubin Observatory gets to work

The Vera C. Rubin Observatory in Chile, which contains the largest digital camera in the world at 3,200 megapixels, has begun its 10-year survey of the universe. Its campaign kicked off on June 30, and for the next decade it will capture a new image roughly every 40 seconds, observing the entire southern sky every few nights. A press release announcing its commencement said its observations will “create an ultrawide, ultrahigh-definition time-lapse record of the universe.”

“Today, we begin filming the greatest cosmic movie ever made,” Brian Stone of the National Science Foundation said in the announcement. The observatory captured its first images last summer in a test run of its capabilities, producing a remarkable look at millions of galaxies and stars, along with thousands of previously unseen asteroids. Over the course of its decade-long survey, called the Legacy Survey of Space and Time (LSST), it will revisit each point in the sky roughly 800 times, allowing it to record changes and cosmic events. Rubin will take about a thousand images per night, amounting to about ten terabytes of data daily.

“It is embarking on a mission that will redefine modern cosmology and astrophysics,” said Darío Gil, Under Secretary for Science at the US Department of Energy. Gil added, “By seeking to understand the enigmatic phenomena of dark energy and dark matter, we are not just observing the stars; we are striving to grasp the fundamental laws that govern our existence.”

Diving suits for swimming cyborg cockroaches

This week in Research That Makes My Skin Crawl, scientists from Nanyang Technological University Singapore and Waseda University announced that they’ve developed a tiny diving suit that allows cyborg cockroaches to survive swimming underwater for hours at a time. If you’re wondering why, exactly, roaches need to be borg-ified and forced to swim underwater at all, I’m right there with you. 

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According to the team, cyborg insects have potential for use in search and rescue operations, as they can access spaces that would be inaccessible to humans, animals and larger robots. Cyborg roaches were recently deployed in the field for the first time to assist with search and rescue efforts after a devastating earthquake in Myanmar this spring.

A flooded environment would normally prove a no-go for the cyborg roaches, which are living Madagascar hissing cockroaches fitted with electronic controllers. The flexible diving suit consists of an oxygen-generation tank, a flexible shell and four silicone supply tubes that are attached to the roaches’ spiracles, or the openings that they breathe through. The team says these tubes can be removed painlessly afterward without harming the roach. In a paper published this week in Nature Communications, the researchers report that the cyborg robots were able to swim underwater for up to 3 hours with this setup in tests.

NASA picks three companies for 2028 Moon Base deliveries

Earlier this year, NASA overhauled its plans for lunar exploration, announcing that it was hitting pause on building an orbiting Lunar Gateway space station and would instead build a $20 billion Moon Base. The first three missions to deliver payloads to the lunar surface for the eventual Moon Base are scheduled to happen before the end of 2026. This week, NASA announced four more missions heading to the moon, these ones scheduled for late 2028. The space agency says it’s awarded contracts totaling nearly $600 million to Astrobotic, Firefly Aerospace and Intuitive Machines to deliver science payloads for the Moon Base.

Astrobotic will make two trips to the moon, while the other two companies will each make one. All of these deliveries will rely on updated versions of each company’s lander designs, building on insights from previous missions under NASA’s Commercial Lunar Payload Services (CLPS) program. The payloads will be the same for each delivery: a Stereo Camera for Lunar Plume Surface Studies (SCALPSS) to collect landing data, a Laser Retroreflector Array (LRA) for precision in determining the location of spacecraft in lunar orbit or landing on the surface, and a Linear Energy Transfer Spectrometer (LETS) for measuring the energy of incoming space radiation. If it seems redundant, well, that’s the point.

“By flying the same science instruments on multiple landers, we will better understand potential hazards during landing and build out a global network of environmental data and location markers on the Moon,” said Joel Kearns, deputy associate administrator for exploration, Science Mission Directorate, at NASA Headquarters. “It’s akin to having weather stations in different locations on Earth. These three payloads are flight-proven and their data is critical to supporting safe human exploration of the lunar surface.”

Before you go, be sure to check out these stories too:

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Disk Polishing Goes Open Source

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Optical media is great — it’s pretty high density, relatively durable, and decently long-lasting if

a selection of before-and-after shots
“That’ll buff out” is very often true when it comes to disks.

well cared for. If not well cared for, well, it’s only relatively durable, and we’ve probably all picked up a second-hand disk that’s too scratched to use. The X-Box 360 is notorious for causing circular damage, and while decent disk cleaners were easy to get in the 90s, we’re not sure how far we trust what’s on offer at retailers today. Hence [Dennis], aka [RetroGameRevival]’s RGR ezBuff polishing machine, which does exactly what it says on the tin: buffs disks to a polish, easily.

We’d say the whole thing is 3D printed, but of course you still need a motor and controller — if you had to turn a crank, that would just be a Buff polishing machine, no ez — and we’ve yet to see a printer poop out polishing compound. If you build it, keep in mind that you’re taking the top layer of material off the disk to polish scratches away, so don’t overdo it. It’s entirely possible to ruin a disk beyond repair with too-aggressive buffing; it’s also possible for disks to be scratched too deeply to save. Polishing can’t save genuine disk rot, though in our experience you’re more likely to find scratched disks than rotten ones. Still, [Dennis]’s birthday gift to the community — it was apparently released on his birthday — should keep more than a few disks out of the trash.

With Sony getting out of the disk game, physical media is becoming more precious than ever, so it’s good to see what looks like a quality polishing option for those of us who either never had a polisher or didn’t save theirs. If you really want your disks to last, maybe we should bring back CD caddies.

Thanks to [Dean] for the tip, via timeExtension.com.

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