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TL;DR: Today, we are an­nounc­ing that all GitHub Copilot plans will tran­si­tion to us­age-based billing on June 1, 2026.

Instead of count­ing pre­mium re­quests, every Copilot plan will in­clude a monthly al­lot­ment of GitHub AI Credits, with the op­tion for paid plans to pur­chase ad­di­tional us­age. Usage will be cal­cu­lated based on to­ken con­sump­tion, in­clud­ing in­put, out­put, and cached to­kens, us­ing the listed API rates for each model.

This change aligns Copilot pric­ing with ac­tual us­age and is an im­por­tant step to­ward a sus­tain­able, re­li­able Copilot busi­ness and ex­pe­ri­ence for all users.

To help cus­tomers pre­pare, we are also launch­ing a pre­view bill ex­pe­ri­ence in early May, giv­ing users and ad­mins vis­i­bil­ity into pro­jected costs be­fore the June 1 tran­si­tion. This will be avail­able to users via their Billing Overview page when they log in to github.com.

Why we’re mak­ing this change

Copilot is not the same prod­uct it was a year ago.

It has evolved from an in-ed­i­tor as­sis­tant into an agen­tic plat­form ca­pa­ble of run­ning long, multi-step cod­ing ses­sions, us­ing the lat­est mod­els, and it­er­at­ing across en­tire repos­i­to­ries. Agentic us­age is be­com­ing the de­fault, and it brings sig­nif­i­cantly higher com­pute and in­fer­ence de­mands.

Today, a quick chat ques­tion and a multi-hour au­tonomous cod­ing ses­sion can cost the user the same amount. GitHub has ab­sorbed much of the es­ca­lat­ing in­fer­ence cost be­hind that us­age, but the cur­rent pre­mium re­quest model is no longer sus­tain­able.

Usage-based billing fixes that. It bet­ter aligns pric­ing with ac­tual us­age, helps us main­tain long-term ser­vice re­li­a­bil­ity, and re­duces the need to gate heavy users.

What’s chang­ing

Starting June 1, pre­mium re­quest units (PRUs) will be re­placed by GitHub AI Credits.

Credits will be con­sumed based on to­ken us­age, in­clud­ing in­put, out­put, and cached to­kens, ac­cord­ing to the pub­lished API rates for each model.

A few im­por­tant de­tails:

Base plan pric­ing is not chang­ing. Copilot Pro re­mains $10/month, Pro+ re­mains $39/month, Business re­mains $19/user/month, and Enterprise re­mains $39/user/month.

Code com­ple­tions and Next Edit sug­ges­tions re­main in­cluded in all plans and do not con­sume AI Credits.

Fallback ex­pe­ri­ences will no longer be avail­able. Today, users who ex­haust PRUs may fall back to a lower-cost model and con­tinue work­ing. Under the new model, us­age will in­stead be gov­erned by avail­able cred­its and ad­min bud­get con­trols.

Copilot code re­view will also con­sume GitHub Actions min­utes, in ad­di­tion to GitHub AI Credits. These min­utes are billed at the same per-minute rates as other GitHub Actions work­flows.

Last week, we also rolled out tem­po­rary changes to Copilot Individual plans, in­clud­ing Free, Pro, Pro+, and Student, and paused self-serve Copilot Business plan pur­chases. These were re­li­a­bil­ity and per­for­mance mea­sures as we pre­pare for the broader tran­si­tion to us­age-based billing. We will loosen us­age lim­its once us­age-based billing is in ef­fect.

What this means for in­di­vid­u­als

Copilot Pro and Pro+ monthly sub­scrip­tions will in­clude monthly AI Credits aligned to their cur­rent sub­scrip­tion prices:

Copilot Pro: $10/month, in­clud­ing $10 in monthly AI Credits

Copilot Pro+: $39/month, in­clud­ing $39 in monthly AI Credits

Users on a monthly Pro or Pro+ plan will au­to­mat­i­cally mi­grate to us­age-based billing on June 1, 2026.

Users on an­nual Pro or Pro+ plans will re­main on their ex­ist­ing plan with pre­mium re­quest-based pric­ing un­til their plan ex­pires. Model mul­ti­pli­ers will in­crease on June 1 (see table) for an­nual plan sub­scribers only. At ex­pi­ra­tion, they will tran­si­tion to Copilot Free with the op­tion to up­grade to a paid monthly plan. Alternatively, they may con­vert to a monthly paid plan be­fore their an­nual plan ex­pires, and we will pro­vide pro­rated cred­its for the re­main­ing value of their an­nual plan.

What this means for busi­nesses and en­ter­prises

Copilot Business and Copilot Enterprise monthly seat pric­ing re­mains un­changed:

Copilot Business: $19/user/month, in­clud­ing $19 in monthly AI Credits

Copilot Enterprise: $39/user/month, in­clud­ing $39 in monthly AI Credits

To sup­port the tran­si­tion, ex­ist­ing Copilot Business and Copilot Enterprise cus­tomers will au­to­mat­i­cally re­ceive pro­mo­tional in­cluded us­age for June, July, and August:

Copilot Business: $30 in monthly AI Credits

Copilot Enterprise: $70 in monthly AI Credits

We are also in­tro­duc­ing pooled in­cluded us­age across a busi­ness, which helps elim­i­nate stranded ca­pac­ity. Instead of each user’s un­used in­cluded us­age be­ing iso­lated, cred­its can be pooled across the or­ga­ni­za­tion.

Admins will also have new bud­get con­trols. They will be able to set bud­gets at the en­ter­prise, cost cen­ter, and user lev­els. When the in­cluded pool is ex­hausted, or­ga­ni­za­tions can choose whether to al­low ad­di­tional us­age at pub­lished rates or cap spend.

The bot­tom line

Plan prices aren’t chang­ing. You’ll have full con­trol over what you spend, tools to track your us­age, and the op­tion to pur­chase more AI Credits if and when you need them.

If you have ques­tions, visit our doc­u­men­ta­tion for in­di­vid­u­als and for busi­nesses and en­ter­prises, and our FAQ and re­lated dis­cus­sion.

Written by

Mario Rodriguez leads the GitHub Product team as Chief Product Officer. His core iden­tity is be­ing a learner and his pas­sion is cre­at­ing de­vel­oper tools—so much so that he has spent the last 20 years liv­ing that mis­sion in lead­er­ship roles across Microsoft and GitHub. Mario most re­cently over­saw GitHub’s AI strat­egy and the GitHub Copilot prod­uct line, launch­ing and grow­ing Copilot across thou­sands of or­ga­ni­za­tions and mil­lions of users. Mario spends time out­side of GitHub with his wife and two daugh­ters. He also co-chairs and founded a char­ter school in an ef­fort to progress ed­u­ca­tion in rural re­gions of the United States.

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I came across a video by Simple Lucas de­scrib­ing a rou­tine to im­prove fo­cus and pro­duc­tiv­ity.

The rou­tine was ba­si­cally:

Don’t use any screens/​en­ter­tain­ment when try­ing to fo­cus on work.

When you start to feel men­tally drained, sit and stare at a wall for x min­utes to re­cover fo­cus.

I’ve been try­ing it, and it’s a very ef­fec­tive (but hard) rou­tine.

The prob­lem

The core prob­lem is that most peo­ple by de­fault are in an in­for­ma­tion over­load.

A pa­per pub­lished in 2012 showed that in 2008 the av­er­age per­son was re­ceiv­ing 34 GB of in­for­ma­tion daily, with a daily in­for­ma­tion ex­po­sure growth rate of about 5.4% per year 1.

Extrapolating that trend, we would be at about 87 GB worth of data to­day.

This cal­cu­la­tion in­cludes au­dio, vi­sual, and text data and in­cor­po­rates qual­ity into the mea­sure­ment, i.e. 10 min­utes of HD video has more in­for­ma­tion than 10 min­utes of 480p video.

It’s un­clear to me ex­actly how the qual­ity im­pacts things, but re­gard­less it is ob­vi­ous that we are all be­ing drowned in a sea of in­for­ma­tion.

I cer­tainly go through pe­ri­ods of “brain fog” and lack of fo­cus/​mo­ti­va­tion.

These pe­ri­ods usu­ally go some­thing like:

Get a bad night of sleep (up late for an event, kids keep wak­ing me up).

Wake up very tired so con­sume large amounts of caf­feine.

Have trou­ble fo­cus­ing af­ter 2/3 cups so use me­dia while work­ing to dull the pain (music/podcasts) or take more “breaks” (reading hack­ernews).

Stay up late be­cause I’m wired on caf­feine and dopamine from scrolling.

Go back to 2.

I find these cy­cles very hard to break out of when I’m in them.

The me­dia con­sump­tion con­sti­tutes a small dopamine hit.

Large num­bers of small hits puts you in a hole, where you need even more/​stronger hits to feel good.

Disconnecting

The ob­vi­ous so­lu­tion is to dis­con­nect from scrolling, but that does­n’t over­come the biggest is­sue.

When I’m in this “brain fog” cy­cle (and some­times out­side of it), I will find that around 1/2 pm I hit a wall.

My head will start hurt­ing, my mo­ti­va­tion will be trash, and my pro­duc­tiv­ity sig­nif­i­cantly de­grades.

My first in­stinct is to go for more cof­fee.

That usu­ally lets me keep work­ing, but at a slow/​painful pace.

While look­ing for fo­cus­ing strate­gies I came across the life-chang­ing so­lu­tion…

Stare at a Wall!

After watch­ing Simple Lucas’ ex­pe­ri­ence, I de­cided to try it when I hit my fo­cus wall.

It worked.

In my at­tempts, I com­bined wall star­ing with a few other con­cepts I had heard about.

First was ac­ti­vat­ing the parasym­pa­thetic ner­vous sys­tem by star­ing at the wall “out-of-focus” and us­ing pe­riph­eral vi­sion.

Second was in­cor­po­rat­ing mind blank­ing which means try­ing to think of noth­ing.

I tried in­ter­vals of 5 – 10 min­utes and when I was done, my fo­cus was back!

What I did­n’t ex­pect was how dif­fi­cult it would be.

Sitting for 5 – 10 min­utes star­ing at a wall with­out think­ing of any­thing is hard!

I re­late it some­what to the feel­ing I have with work­ing out.

Often times I want to avoid it be­cause it’s hard, but I’m al­ways happy when I push through and com­plete it.

It was the ex­act same ex­pe­ri­ence with the wall star­ing.

So far I’ve been feel­ing sig­nif­i­cant fo­cus/​pro­duc­tiv­ity im­prove­ments.

I’ve also been us­ing some other strate­gies to im­prove fo­cus, which I’ll be talk­ing about in a fu­ture post.

I plan to con­tinue this rou­tine and will up­date to see how much it has im­pacted pro­duc­tiv­ity/​fo­cus.

Thanks for read­ing!

https://​ijoc.org/​in­dex.php/​ijoc/​ar­ti­cle/​view/​1566 ↩︎

https://​ijoc.org/​in­dex.php/​ijoc/​ar­ti­cle/​view/​1566 ↩︎

Forensic in­tel­li­gence // Breach analy­sis

4TB of voice sam­ples were just stolen from 40,000 AI con­trac­tors. Here is how to ver­ify if yours is be­ing weaponized.

By the ORAVYS foren­sic desk

Published April 24, 2026

~7 min read

On April 4, 2026, the ex­tor­tion group Lapsus$ posted Mercor on its leak site. The dump is re­ported at roughly four ter­abytes and bun­dles a pay­load that breach an­a­lysts have been warn­ing about for two years: voice bio­met­rics paired with the same per­son’s gov­ern­ment-is­sued iden­tity doc­u­ment. According to the leaked sam­ple in­dex, the archive cov­ers more than 40,000 con­trac­tors who signed up to la­bel data, record read­ing pas­sages, and run through ver­i­fi­ca­tion calls for AI train­ing.

Five con­trac­tor law­suits were filed within ten days of the post. The plain­tiffs ar­gue that the com­pany col­lected voice prints un­der a “training data” fram­ing with­out mak­ing clear they were also a per­ma­nent bio­met­ric iden­ti­fier. The law­suits mat­ter, but the peo­ple whose voices were al­ready ex­fil­trated have a more im­me­di­ate ques­tion. What does an at­tacker ac­tu­ally do with thirty sec­onds of some­one’s clean read voice plus a scan of their dri­ver’s li­cense?

Why this breach is dif­fer­ent

Most voice leaks in the last decade fell into one of two buck­ets. Either a call cen­ter got popped and record­ings were stolen with no easy way to map them back to iden­tity. Or an ID-document bro­ker leaked dri­ver’s li­censes and self­ies with­out any au­dio at­tached. Mercor merged both columns. The con­trac­tor on­board­ing pipeline asked for a pass­port or dri­ver’s li­cense scan, then a we­b­cam selfie, then a sit-down voice record­ing read­ing scripted prompts in a quiet room. That se­quence, in one row of one data­base, is ex­actly what a syn­thetic voice cloning ser­vice needs as in­put.

The Wall Street Journal re­ported in February 2026 that high-qual­ity voice cloning now re­quires roughly fif­teen sec­onds of clean ref­er­ence au­dio for tools avail­able off the shelf. The Mercor record­ings are re­ported to av­er­age two to five min­utes of stu­dio-clean speech per con­trac­tor. That is far past the thresh­old. Pair it with a ver­i­fied ID doc­u­ment and the at­tacker has both the clone and the cre­den­tial needed to put the clone to work.

What at­tack­ers can now do with stolen voice data

The threat mod­els be­low are not spec­u­la­tive. Each is a doc­u­mented tech­nique al­ready used in the wild be­fore this breach.

Bank ver­i­fi­ca­tion by­pass. Several US and UK banks still treat voice­print match­ing as one of two fac­tors. A clone of the ac­count holder read­ing a chal­lenge phrase clears the au­dio gate, leav­ing only a knowl­edge ques­tion that of­ten comes from the same leaked dataset.

Vishing the vic­tim’s em­ployer. Calling HR or fi­nance pre­tend­ing to be the em­ployee to redi­rect pay­roll, re­quest a wire, or un­lock a work­sta­tion. The Krebs on Security archive lists more than two dozen con­firmed cases since 2023.

Deepfake video calls in the Hong Kong Arup tem­plate. In 2024 a fi­nance worker at Arup wired roughly 25 mil­lion dol­lars af­ter a multi-per­son deep­fake video call. The voices and faces had been built from pub­lic footage. Mercor leaked some­thing bet­ter than pub­lic footage: stu­dio au­dio plus a ver­i­fied ID.

Insurance claim fraud. Pindrop re­ported a 475 per­cent year-over-year in­crease in syn­thetic voice at­tacks against in­sur­ance call cen­ters across 2025. Auto, life, and dis­abil­ity claims are the prime tar­gets be­cause they are set­tled by phone.

Romance and grand­par­ent scams tar­get­ing fam­ily mem­bers. The FBI Internet Crime Complaint Center logged 2.3 bil­lion dol­lars in losses for vic­tims aged 60 and over in cal­en­dar year 2026. The sin­gle fastest-grow­ing cat­e­gory was emer­gency im­per­son­ation calls, where the syn­thetic voice claims to be a rel­a­tive in trou­ble.

How to check if your voice is be­ing mis­used

If you ever up­loaded a voice sam­ple to Mercor, or to any of the other AI train­ing bro­kers that op­er­ated through 2025, treat your voice the way you would treat a leaked pass­word. You can­not ro­tate it, but you can change what it un­locks. Here is the short list.

Self-audit your pub­lic au­dio foot­print. Search YouTube, pod­cast di­rec­to­ries, and old Zoom record­ings for sam­ples of your voice that are pub­licly in­dex­able. Take down what you can. The less ref­er­ence au­dio is in the open, the less ro­bust an at­tack­er’s clone.

Set up a ver­bal code­word with fam­ily and fi­nance con­tacts. Pick a phrase that has never been spo­ken on a record­ing and never typed in chat. Brief the peo­ple who han­dle money on your be­half. If a call ever asks for a trans­fer, the code­word is manda­tory.

Rotate where voice­prints are still in use. Google Voice Match, Amazon Alexa Voice ID, Apple per­sonal voice, and any bank­ing voice­print en­roll­ment can be deleted and re­placed. Do that now, ide­ally from a new record­ing in a dif­fer­ent acoustic en­vi­ron­ment than the leaked sam­ple.

Tell your bank to dis­able voice­print as a ver­i­fi­ca­tion fac­tor. Ask in writ­ing for multi-fac­tor au­then­ti­ca­tion that com­bines an app to­ken or hard­ware key with a knowl­edge fac­tor. Many banks let you opt out of voice as a pri­mary fac­tor; few of them ad­ver­tise it.

Run sus­pi­cious record­ings through a foren­sic scan­ner. If you re­ceive an au­dio file or voice­mail that claims to be from some­one you know and asks for money, ac­cess, or ur­gency, run it through a deep­fake de­tec­tor be­fore act­ing. ORAVYS of­fers a free check for the first three sam­ples sub­mit­ted by breach vic­tims (see the of­fer be­low).

The foren­sic check­list that ex­perts use

When a sam­ple lands on a foren­sic an­a­lyst’s desk, the fol­low­ing ar­ti­facts are the first pass. Each is some­thing a syn­thetic voice tends to get slightly wrong, even when the per­cep­tual qual­ity is high.

Codec mis­match. The au­dio claims to come from a phone call but the spec­tral sig­na­ture does not match any known tele­phony codec.

Breath pat­terns. Real speak­ers in­hale at pre­dictable points dic­tated by phrase length and lung ca­pac­ity. Synthetic voices of­ten skip breaths or in­sert them at the wrong syl­labic bound­ary.

Micro-jitter. Natural vo­cal folds vi­brate with small ir­reg­u­lar­i­ties. Generated au­dio is of­ten too clean at the mil­lisec­ond level.

Formant tra­jec­tory. Vowel tran­si­tions fol­low phys­i­cal ar­tic­u­la­tor paths in a real mouth. Cloned voices some­times take im­pos­si­ble short­cuts be­tween for­mants.

Room acoustics in­con­sis­tency. The re­verb sig­na­ture should be iden­ti­cal from the start of the file to the end. Generated au­dio is of­ten dry while the splice con­text is re­ver­ber­ant.

Prosody flat­ness. Synthetic speech of­ten has nar­rower pitch and en­ergy vari­ance than the same speaker would have in real con­di­tions.

Speech rate sta­bil­ity. Real hu­mans speed up and slow down with con­tent. Generated speech tends to hold a metro­nomic rate across long pas­sages.

What ORAVYS does specif­i­cally

More than 3,000 foren­sic en­gines run in par­al­lel on every sub­mit­ted sam­ple, cov­er­ing sig­nal, prosody, ar­tic­u­la­tion, codec, and prove­nance do­mains.

AudioSeal wa­ter­mark de­tec­tion flags files gen­er­ated by ma­jor com­mer­cial voice mod­els when the wa­ter­mark is pre­served, giv­ing a de­ter­min­is­tic pos­i­tive when pre­sent.

An anti-spoof­ing mod­ule trained against the ASVspoof pub­lic bench­marks scores the like­li­hood that a sam­ple was syn­the­sized rather than recorded.

Biometric pro­cess­ing is RGPD com­pli­ant. Audio is never used to train com­mer­cial mod­els with­out ex­plicit con­sent and is purged on a de­fined re­ten­tion sched­ule.

Free ver­i­fi­ca­tion for Mercor breach vic­tims

If you were a Mercor con­trac­tor and you be­lieve your voice may al­ready be in cir­cu­la­tion, ORAVYS will an­a­lyze the first three sus­pect sam­ples free of charge. You will re­ceive a foren­sic re­port cov­er­ing wa­ter­mark de­tec­tion, anti-spoof­ing score, and the ar­ti­fact check­list above. No card re­quired, no quota gate.

Run a foren­sic check →

Sources cited in this ar­ti­cle: Lapsus$ leak site in­dex (April 2026), Wall Street Journal voice cloning re­port (February 2026), Pindrop Voice Intelligence Report 2025, FBI IC3 Elder Fraud Report 2026, Krebs on Security archives. Lawsuit ref­er­ences are mat­ters of pub­lic record. ORAVYS does not host or re­dis­trib­ute the leaked dataset and does not ac­cept it as in­put.

NOTICE OF OBSOLESCENCE

TL;DR: pg­Back­Rest is no longer be­ing main­tained. If you fork pg­Back­Rest, please se­lect a new name for your pro­ject.

After a lot of thought, I have de­cided to stop work­ing on pg­Back­Rest. I did not come to this de­ci­sion lightly. pg­Back­Rest has been my pas­sion pro­ject for the last thir­teen years, and I was for­tu­nate to have cor­po­rate spon­sor­ship for much of this time, but there were also many late nights and week­ends as I worked to make pg­Back­Rest the pro­ject it is to­day, aided by nu­mer­ous con­trib­u­tors. Every open-source de­vel­oper knows ex­actly what I mean and how much of your life gets de­voted to a spe­cial pro­ject.

Since Crunchy Data was sold, I have been main­tain­ing pg­Back­Rest and look­ing for a po­si­tion that would al­low me to con­tinue the work, but so far I have not been suc­cess­ful. Likewise, my ef­forts to se­cure spon­sor­ship have also fallen far short of what I need to make the pro­ject vi­able.

Like every­one else, I need to make a liv­ing, and the range of pg­Back­Rest-re­lated roles is very lim­ited. I can now con­sider a wider va­ri­ety of op­por­tu­ni­ties, but those will not leave me time to work on pg­Back­Rest, which re­quires a fair amount of time for main­te­nance, bug fixes, PR re­views, an­swer­ing is­sues, etc. That does not even in­clude time to write new fea­tures, which is what I re­ally love to do. Rather than do the work poorly and/​or spo­rad­i­cally, I think it makes more sense to have a hard stop.

I imag­ine at some point pg­Back­Rest will be forked, but that will be a new pro­ject with new main­tain­ers, and they will need to build trust the same way we did.

Again, many thanks to all the pg­Back­Rest con­trib­u­tors over the years. It was a plea­sure work­ing with you!

Introduction

pg­Back­Rest is a re­li­able backup and re­store so­lu­tion for PostgreSQL that seam­lessly scales up to the largest data­bases and work­loads.

pg­Back­Rest v2.58.0 is the cur­rent sta­ble re­lease. Release notes are on the Releases page.

Features

Parallel Backup & Restore

Compression is usu­ally the bot­tle­neck dur­ing backup op­er­a­tions so pg­Back­Rest solves this prob­lem with par­al­lel pro­cess­ing and more ef­fi­cient com­pres­sion al­go­rithms such as lz4 and zstd.

Local or Remote Operation

A cus­tom pro­to­col al­lows pg­Back­Rest to backup, re­store, and archive lo­cally or re­motely via TLS/SSH with min­i­mal con­fig­u­ra­tion. An in­ter­face to query PostgreSQL is also pro­vided via the pro­to­col layer so that re­mote ac­cess to PostgreSQL is never re­quired, which en­hances se­cu­rity.

Multiple Repositories

Multiple repos­i­to­ries al­low, for ex­am­ple, a lo­cal repos­i­tory with min­i­mal re­ten­tion for fast re­stores and a re­mote repos­i­tory with a longer re­ten­tion for re­dun­dancy and ac­cess across the en­ter­prise.

Full, Differential, & Incremental Backups (at File or Block Level)

Full, dif­fer­en­tial, and in­cre­men­tal back­ups are sup­ported. pg­Back­Rest is not sus­cep­ti­ble to the time res­o­lu­tion is­sues of rsync, mak­ing dif­fer­en­tial and in­cre­men­tal back­ups safe with­out the re­quire­ment to check­sum each file. Block-level back­ups save space by only copy­ing the parts of files that have changed.

Backup Rotation & Archive Expiration

Retention po­lices can be set for full and dif­fer­en­tial back­ups to cre­ate cov­er­age for any time frame. The WAL archive can be main­tained for all back­ups or strictly for the most re­cent back­ups. In the lat­ter case WAL re­quired to make older back­ups con­sis­tent will be main­tained in the archive.

Backup Integrity

Checksums are cal­cu­lated for every file in the backup and rechecked dur­ing a re­store or ver­ify. After a backup fin­ishes copy­ing files, it waits un­til every WAL seg­ment re­quired to make the backup con­sis­tent reaches the repos­i­tory.

Backups in the repos­i­tory may be stored in the same for­mat as a stan­dard PostgreSQL clus­ter (including ta­ble­spaces). If com­pres­sion is dis­abled and hard links are en­abled it is pos­si­ble to snap­shot a backup in the repos­i­tory and bring up a PostgreSQL clus­ter di­rectly on the snap­shot. This is ad­van­ta­geous for ter­abyte-scale data­bases that are time con­sum­ing to re­store in the tra­di­tional way.

All op­er­a­tions uti­lize file and di­rec­tory level fsync to en­sure dura­bil­ity.

Page Checksums

If page check­sums are en­abled pg­Back­Rest will val­i­date the check­sums for every file that is copied dur­ing a backup. All page check­sums are val­i­dated dur­ing a full backup and check­sums in files that have changed are val­i­dated dur­ing dif­fer­en­tial and in­cre­men­tal back­ups.

Validation fail­ures do not stop the backup process, but warn­ings with de­tails of ex­actly which pages have failed val­i­da­tion are out­put to the con­sole and file log.

This fea­ture al­lows page-level cor­rup­tion to be de­tected early, be­fore back­ups that con­tain valid copies of the data have ex­pired.

Backup Resume

An in­ter­rupted backup can be re­sumed from the point where it was stopped. Files that were al­ready copied are com­pared with the check­sums in the man­i­fest to en­sure in­tegrity. Since this op­er­a­tion can take place en­tirely on the repos­i­tory host, it re­duces load on the PostgreSQL host and saves time since check­sum cal­cu­la­tion is faster than com­press­ing and re­trans­mit­ting data.

Streaming Compression & Checksums

Compression and check­sum cal­cu­la­tions are per­formed in stream while files are be­ing copied to the repos­i­tory, whether the repos­i­tory is lo­cated lo­cally or re­motely.

If the repos­i­tory is on a repos­i­tory host, com­pres­sion is per­formed on the PostgreSQL host and files are trans­mit­ted in a com­pressed for­mat and sim­ply stored on the repos­i­tory host. When com­pres­sion is dis­abled a lower level of com­pres­sion is uti­lized to make ef­fi­cient use of avail­able band­width while keep­ing CPU cost to a min­i­mum.

Delta Restore

The man­i­fest con­tains check­sums for every file in the backup so that dur­ing a re­store it is pos­si­ble to use these check­sums to speed pro­cess­ing enor­mously. On a delta re­store any files not pre­sent in the backup are first re­moved and then check­sums are gen­er­ated for the re­main­ing files. Files that match the backup are left in place and the rest of the files are re­stored as usual. Parallel pro­cess­ing can lead to a dra­matic re­duc­tion in re­store times.

Parallel, Asynchronous WAL Push & Get

Dedicated com­mands are in­cluded for push­ing WAL to the archive and get­ting WAL from the archive. Both com­mands sup­port par­al­lelism to ac­cel­er­ate pro­cess­ing and run asyn­chro­nously to pro­vide the fastest pos­si­ble re­sponse time to PostgreSQL.

WAL push au­to­mat­i­cally de­tects WAL seg­ments that are pushed mul­ti­ple times and de-du­pli­cates when the seg­ment is iden­ti­cal, oth­er­wise an er­ror is raised. Asynchronous WAL push al­lows trans­fer to be of­floaded to an­other process which com­presses WAL seg­ments in par­al­lel for max­i­mum through­put. This can be a crit­i­cal fea­ture for data­bases with ex­tremely high write vol­ume.

Asynchronous WAL get main­tains a lo­cal queue of WAL seg­ments that are de­com­pressed and ready for re­play. This re­duces the time needed to pro­vide WAL to PostgreSQL which max­i­mizes re­play speed. Higher-latency con­nec­tions and stor­age (such as S3) ben­e­fit the most.

The push and get com­mands both en­sure that the data­base and repos­i­tory match by com­par­ing PostgreSQL ver­sions and sys­tem iden­ti­fiers. This vir­tu­ally elim­i­nates the pos­si­bil­ity of mis­con­fig­ur­ing the WAL archive lo­ca­tion.

Tablespace & Link Support

Tablespaces are fully sup­ported and on re­store ta­ble­spaces can be remapped to any lo­ca­tion. It is also pos­si­ble to remap all ta­ble­spaces to one lo­ca­tion with a sin­gle com­mand which is use­ful for de­vel­op­ment re­stores.

File and di­rec­tory links are sup­ported for any file or di­rec­tory in the PostgreSQL clus­ter. When restor­ing it is pos­si­ble to re­store all links to their orig­i­nal lo­ca­tions, remap some or all links, or re­store some or all links as nor­mal files or di­rec­to­ries within the clus­ter di­rec­tory.

S3, Azure, and GCS Compatible Object Store Support

pg­Back­Rest repos­i­to­ries can be lo­cated in S3, Azure, and GCS com­pat­i­ble ob­ject stores to al­low for vir­tu­ally un­lim­ited ca­pac­ity and re­ten­tion.

Encryption

pg­Back­Rest can en­crypt the repos­i­tory to se­cure back­ups wher­ever they are stored.

Compatibility with ten ver­sions of PostgreSQL

pg­Back­Rest in­cludes sup­port for ten ver­sions of PostgreSQL, the five sup­ported ver­sions and the last five EOL ver­sions. This al­lows am­ple time to up­grade to a sup­ported ver­sion.

Getting Started

pg­Back­Rest strives to be easy to con­fig­ure and op­er­ate:

User guides for var­i­ous op­er­at­ing sys­tems and PostgreSQL ver­sions.

User guides for var­i­ous op­er­at­ing sys­tems and PostgreSQL ver­sions.

Command ref­er­ence for com­mand-line op­er­a­tions.

Command ref­er­ence for com­mand-line op­er­a­tions.

Configuration ref­er­ence for cre­at­ing pg­Back­Rest con­fig­u­ra­tions.

Configuration ref­er­ence for cre­at­ing pg­Back­Rest con­fig­u­ra­tions.

Sponsorship

pg­Back­Rest would not ex­ist with­out spon­sors. Writing new fea­tures, fix­ing bugs, re­view­ing con­tri­bu­tions, an­swer­ing ques­tions from the com­mu­nity, and main­te­nance all take a con­sid­er­able amount of time.

Current spon­sors: Supabase.

Past spon­sors: Crunchy Data, Resonate.

Recognition

Armchair graphic by Alexander Skowalsky.

China’s state plan­ner on Monday called for Meta to un­wind its $2 bil­lion ac­qui­si­tion of Manus, a Singaporean ar­ti­fi­cial in­tel­li­gence startup with Chinese roots.

The de­ci­sion to pro­hibit for­eign in­vest­ment in Manus was made in ac­cor­dance with laws and reg­u­la­tions, the National Development and Reform Commission said in a brief state­ment. It added that it has asked the par­ties in­volved to with­draw the ac­qui­si­tion trans­ac­tion.

Shares of Meta closed 0.53% higher on Monday.

The deal had at­tracted scrutiny from both China and Washington, as law­mak­ers in the U.S. have pro­hib­ited American in­vestors from back­ing Chinese AI com­pa­nies di­rectly. Meanwhile, Beijing has in­creased ef­forts to dis­cour­age Chinese AI founders from mov­ing busi­ness off­shore.

watch now

The Chinese gov­ern­men­t’s in­ter­ven­tion in the trans­ac­tion drew alarm among tech founders and ven­ture cap­i­tal­ists in the coun­try who were hop­ing to take ad­van­tage of the so-called Singapore-washing model, where com­pa­nies re­lo­cate from China to the city-state to avoid scrutiny from Beijing and Washington.

Manus was founded in China be­fore re­lo­cat­ing to Singapore. The com­pany de­vel­ops gen­eral-pur­pose AI agents and launched its first gen­eral AI agent in March last year, which can ex­e­cute com­plex tasks such as mar­ket re­search, cod­ing and data analy­sis. The re­lease saw the startup lauded as the next DeepSeek.

Manus said it had passed $100 mil­lion in an­nual re­cur­ring rev­enue, or ARR, in December, eight months on from launch­ing a prod­uct, which it claimed made it the fastest startup in the world at the time to hit the mile­stone from $0.

The com­pany raised $75 mil­lion in a round led by U.S. VC Benchmark in April last year.

When Meta an­nounced the deal late last year, the tech gi­ant said it would look to ac­cel­er­ate ar­ti­fi­cial in­tel­li­gence in­no­va­tion for busi­nesses and in­te­grate ad­vanced au­toma­tion into its con­sumer and en­ter­prise prod­ucts, in­clud­ing its Meta AI as­sis­tant.

But in January, China’s Ministry of Commerce said it would con­duct an as­sess­ment and in­ves­ti­ga­tion into how the ac­qui­si­tion com­plied with laws and reg­u­la­tions con­cern­ing ex­port con­trols, tech­nol­ogy im­port and ex­port, and over­seas in­vest­ment.

A Meta spokesper­son told CNBC that the trans­ac­tion “complied fully with ap­plic­a­ble law,” and that it an­tic­i­pated “an ap­pro­pri­ate res­o­lu­tion to the in­quiry.”

When asked about China’s move to block Meta’s ac­qui­si­tion of Manus, APEC Senior Officials Meeting Chairman Chen Xu told re­porters that it is “important that all par­ties act in a spirit of mu­tual ben­e­fit.”

While Chen said he did not know the specifics of the is­sue, he said that “if such an is­sue can be han­dled prop­erly, it can help fa­cil­i­tate more sub­stan­tive dis­cus­sions in APEC.” That’s ac­cord­ing to an of­fi­cial English trans­la­tion.

— CNBC’s Anniek Bao and Dylan Butts con­tributed to this story.

Dirac - Accurate & Highly Token Efficient Open Source AI Agent

Dirac topped the Terminal-Bench-2 leader­board for gem­ini-3-flash-pre­view with a 65.2% score!

Dirac topped the Terminal-Bench-2 leader­board for gem­ini-3-flash-pre­view with a 65.2% score!

It is a well stud­ied phe­nom­e­non that any given mod­el’s rea­son­ing abil­ity de­grades with the con­text length. If we can keep con­text tightly cu­rated, we im­prove both ac­cu­racy and cost while mak­ing larger changes tractable in a sin­gle task.

Dirac is an open-source cod­ing agent built with this in mind. It re­duces API costs by 64.8% on av­er­age while pro­duc­ing bet­ter and faster work. Using hash-an­chored par­al­lel ed­its, AST ma­nip­u­la­tion, and a suite of ad­vanced op­ti­miza­tions. Oh, and no MCP.

Our goal: Optimize for bang-for-the-buck on tool­ing with bare min­i­mum prompt­ing in­stead of go­ing blindly min­i­mal­is­tic.

📊 Evals

Dirac is bench­marked against other lead­ing open-source agents on com­plex, real-world refac­tor­ing tasks. Dirac con­sis­tently achieves 100% ac­cu­racy at a frac­tion of the cost. These evals are run on pub­lic github re­pos and should be re­pro­ducible by any­one.

🏆 TerminalBench 2.0 Leaderboard: Dirac re­cently topped the Terminal-Bench-2 leader­board with a 65.2% score us­ing gem­ini-3-flash-pre­view. This out­per­forms both Google’s of­fi­cial base­line (47.6%) and the top closed-source agent Junie CLI (64.3%). This was achieved with­out any bench­mark-spe­cific info or any AGENTS.md files be­ing in­serted.

🏆 TerminalBench 2.0 Leaderboard: Dirac re­cently topped the Terminal-Bench-2 leader­board with a 65.2% score us­ing gem­ini-3-flash-pre­view. This out­per­forms both Google’s of­fi­cial base­line (47.6%) and the top closed-source agent Junie CLI (64.3%). This was achieved with­out any bench­mark-spe­cific info or any AGENTS.md files be­ing in­serted.

Note on the cost table be­low: A bug was dis­cov­ered in Cline, the par­ent repo, af­ter run­ning these evals (issue #10314). We have sub­mit­ted a PR #10315 to fix this. This bug caused the evals for Dirac and Cline to slightly un­der­re­port the num­bers ($0.03 vs $0.05 per mil­lion to­ken cache read). Although there won’t be a large dif­fer­ence, we will up­date the evals soon.

Note on the cost table be­low: A bug was dis­cov­ered in Cline, the par­ent repo, af­ter run­ning these evals (issue #10314). We have sub­mit­ted a PR #10315 to fix this. This bug caused the evals for Dirac and Cline to slightly un­der­re­port the num­bers ($0.03 vs $0.05 per mil­lion to­ken cache read). Although there won’t be a large dif­fer­ence, we will up­date the evals soon.

All tasks for all mod­els used gem­ini-3-flash-pre­view with think­ing set to high

🟢 Success | 🟡 Incomplete | 🔴 Failure

🟢 Success | 🟡 Incomplete | 🔴 Failure

Cost Comparison: Dirac is 64.8% cheaper than the com­pe­ti­tion (a 2.8x cost re­duc­tion).

* Expected num­ber of files to be mod­i­fied/​cre­ated to com­plete the task.

See evals/​README.md for de­tailed task de­scrip­tions and method­ol­ogy.

Cost Comparison: Dirac is 64.8% cheaper than the com­pe­ti­tion (a 2.8x cost re­duc­tion).

* Expected num­ber of files to be mod­i­fied/​cre­ated to com­plete the task.

See evals/​README.md for de­tailed task de­scrip­tions and method­ol­ogy.

🚀 Key Features

Hash-Anchored Edits: Dirac uses sta­ble line hashes to tar­get ed­its with ex­treme pre­ci­sion, avoid­ing the “lost in trans­la­tion” is­sues of tra­di­tional line-num­ber based edit­ing.

AST-Native Precision: Built-in un­der­stand­ing of lan­guage syn­tax (TypeScript, Python, C++, etc.) al­lows Dirac to per­form struc­tural ma­nip­u­la­tions like func­tion ex­trac­tion or class refac­tor­ing with 100% ac­cu­racy.

Multi-File Batching: Dirac can process and edit mul­ti­ple files in a sin­gle LLM roundtrip, sig­nif­i­cantly re­duc­ing la­tency and API costs.

High-Bandwidth Context: Optimized con­text cu­ra­tion keeps the agent lean and fast, en­sur­ing the LLM al­ways has the most rel­e­vant in­for­ma­tion with­out wast­ing to­kens.

Autonomous Tool Use: Dirac can read/​write files, ex­e­cute ter­mi­nal com­mands, use a head­less browser, and more - all while keep­ing you in con­trol with an ap­proval-based work­flow.

Skills & AGENTS.md: Customize Dirac’s be­hav­ior with pro­ject-spe­cific in­struc­tions us­ing AGENTS.md files. It also seam­lessly picks up Claude’s skills by au­to­mat­i­cally read­ing from .ai, .claude, and .agents di­rec­to­ries.

Native Tool Calling Only: To en­sure max­i­mum re­li­a­bil­ity and per­for­mance, Dirac ex­clu­sively sup­ports mod­els with na­tive tool call­ing en­abled. (Note: MCP is not sup­ported).

📦 Installation

VS Code Extension

Install Dirac from the VS Code Marketplace.

CLI (Terminal)

Install the Dirac CLI glob­ally us­ing npm:

npm in­stall -g dirac-cli

🚀 CLI Quick Start

Authenticate:

dirac auth

dirac auth

Run your first task:

dirac “Analyze the ar­chi­tec­ture of this pro­ject”

dirac “Analyze the ar­chi­tec­ture of this pro­ject”

Configuration (Environment Variables)

You can pro­vide API keys via en­vi­ron­ment vari­ables to skip the dirac auth step. This is ideal for CI/CD or non-per­sis­tent en­vi­ron­ments:

ANTHROPIC_API_KEY

OPENAI_API_KEY

OPENROUTER_API_KEY

GEMINI_API_KEY

GROQ_API_KEY

MISTRAL_API_KEY

XAI_API_KEY (x.ai)

HF_TOKEN (HuggingFace)

… and oth­ers (see src/​shared/​stor­age/​env-con­fig.ts for the full list).

Common Commands

dirac “prompt”: Start an in­ter­ac­tive task.

dirac -p “prompt”: Run in Plan Mode to see the strat­egy be­fore ex­e­cut­ing.

dirac -y “prompt”: Yolo Mode (auto-approve all ac­tions, great for sim­ple fixes).

git diff | dirac “Review these changes”: Pipe con­text di­rectly into Dirac.

dirac his­tory: View and re­sume pre­vi­ous tasks.

🛠️ Getting Started

Open the Dirac side­bar in VS Code.

Configure your pre­ferred AI provider (Anthropic, OpenAI, OpenRouter, etc.).

Start a new task by de­scrib­ing what you want to build or fix.

Watch Dirac go!

📈 Star History

📄 License

Dirac is open source and li­censed un­der the Apache License 2.0.

🤝 Acknowledgments

Dirac is a fork of the ex­cel­lent Cline pro­ject. We are grate­ful to the Cline team and con­trib­u­tors for their foun­da­tional work.

Built with ❤️ by Max Trivedi at Dirac Delta Labs

De Nederlandsche Bank will sign a ma­jor con­tract to­mor­row with Schwarz Digits, the IT arm of Lidl owner Schwarz Group. DNB aims to re­duce its de­pen­dence on American cloud com­pa­nies. As a ma­jor Dutch or­ga­ni­za­tion, it is opt­ing for a European part­ner, but how will this play out?

Sales Director Bernd Wagner an­nounced the news on Monday at the Hannover Messe, ac­cord­ing to De Telegraaf. The move it­self comes as no sur­prise. DNB Director Steven Maijoor an­nounced last October that he in­tended to “set a good ex­am­ple” and switch to a European cloud, though he ac­knowl­edged that it “is not yet as ro­bust or high-qual­ity as the one from the U.S.”

That is pre­cisely the con­sid­er­a­tion every com­pany must make. Can a European al­ter­na­tive func­tion well enough to meet the or­ga­ni­za­tion’s re­quire­ments and needs? Lidl’s plat­form has been in de­vel­op­ment for years, but those of Amazon, Google, and Microsoft have some­times had as much as 20 years of de­vel­op­ment work be­hind them.

The fact that the tran­si­tion to European al­ter­na­tives does not al­ways go smoothly is ev­i­dent in Schleswig-Holstein, where the lo­cal gov­ern­ment is al­ready strug­gling with the mi­gra­tion from Microsoft to an open-source en­vi­ron­ment.

Large or­ga­ni­za­tions are al­ready con­nected to Lidl’s cloud. For ex­am­ple, Lidl and the German su­per­mar­ket chain Kaufland use it. Deutsche Bahn also col­lab­o­rates with the Schwarz Group. But now a Dutch or­ga­ni­za­tion from a highly reg­u­lated sec­tor is opt­ing for this cloud.

Concerns about cloud de­pen­dency

Last year, the Dutch Central Bank (DNB) and the Netherlands Authority for the Financial Markets (AFM) warned that the Dutch fi­nan­cial sec­tor had be­come too de­pen­dent on for­eign IT ser­vice providers, par­tic­u­larly American ones. These con­cerns were fu­eled by geopo­lit­i­cal ten­sions. For ex­am­ple, a pros­e­cu­tor at the International Criminal Court in The Hague was cut off from his Microsoft email ac­count by President Donald Trump. The ICC is now also switch­ing to non-Amer­i­can sys­tems.

Incidentally, when is­su­ing that warn­ing, DNB also had to ad­mit that it it­self is largely de­pen­dent on American ser­vice providers for its dig­i­tal in­fra­struc­ture.

Schwarz Digits and Stackit

Schwarz Digits, via the Stackit cloud plat­form, has long po­si­tioned it­self as a European al­ter­na­tive to American hy­per­scalers. The Lidl-owned com­pany is build­ing a sov­er­eign cloud where all data falls un­der European law. This sets it apart from American providers, who, un­der the Cloud Act, are re­quired to hand over data to U.S. au­thor­i­ties. Schwarz Digits re­cently an­nounced an in­vest­ment of 11 bil­lion eu­ros in a large data cen­ter in Lübbenau.

The pro­ject orig­i­nally be­gan as an in­ter­nal IT sys­tem for Lidl and Kaufland, but is now also at­tract­ing ex­ter­nal clients, in­clud­ing SAP and Bayern Munich. Together with Deutsche Telekom, it is work­ing on broader European IT al­ter­na­tives.

A spokesper­son for DNB con­firmed con­cerns about cloud de­pen­dency on Monday but de­clined to com­ment on in­di­vid­ual con­tracts. “That is why, with every new step to­ward the cloud, we ex­plic­itly as­sess geopo­lit­i­cal risks and ex­plore how we can re­duce our de­pen­dency,” the spokesper­son said.

Spend your time writ­ing

and don’t worry about the rest.

.docauthor {Jennifer Chu}

.pagemargin {topright}

 .docauthor | MIT News

# X-ray flashes from a su­per­mas­sive black hole

!(70%)[Black hole](img/​black­hole.jpg)

.abstract

One su­per­mas­sive black hole has kept as­tronomers glued to their scopes

for the last sev­eral years.

The black hole in ques­tion is `1ES 1927+654`, which is about as

mas­sive as a mil­lion suns and sits in a galaxy that is 270 mil­lion

light-years away.

In 2018, as­tronomers at MIT and else­where ob­served that the black

hole’s corona — a cloud of whirling, white-hot plasma — sud­denly

**disappeared**, be­fore re­assem­bling months later.

The brief though dra­matic shut-off was a first in black hole as­tron­omy.

> This would be the clos­est thing we know of around any black hole.

> - Megan Masterson, a grad­u­ate stu­dent in physics at MIT

Complete au­thor­ing ex­pe­ri­ence

Write Markdown to reach flow state faster.Use Quarkdown’s ex­ten­sions to achieve more.

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Whether you are writ­ing a re­search pa­per, a quick re­port, a com­pany-wide wiki, class notes, or prepar­ing in­ter­ac­tive slides for your next talk, there’s only one line you need.

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Typesetting for the im­pa­tient

With blaz­ing fast com­pi­la­tion and live pre­view, see re­sults in­stantly as you type.

Don’t re­peat your­self

Reuse your work­flow thanks to pow­er­ful script­ing ca­pa­bil­i­ties.

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name ecosys­tem pic­ture:

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- **Name**: .name

- **Ecosystem**: .ecosystem

.animal {Red panda} ecosys­tem:{Tem­per­ate forests}

 

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.animal {Clownfish} ecosys­tem:{Coral reefs}