Slow data­base query de­tected du­ra­tion_ms=847 query=“SE­LECT u.*, o.name FROM users u JOIN orgs o ON u.org_id = o.id WHERE u.org_id = $1 AND u.delet­ed_at IS NULL” rows_re­turned=2847

Slow data­base query de­tected du­ra­tion_ms=847 query=“SE­LECT u.*, o.name FROM users u JOIN orgs o ON u.org_id = o.id WHERE u.org_id = $1 AND u.delet­ed_at IS NULL” rows_re­turned=2847

INFO HttpServer started suc­cess­fully bind­ing=0.0.0.0:3000 pid=28471 env=pro­duc­tion ver­sion=2.4.1 node_env=pro­duc­tion clus­ter_­mode=en­abled work­ers=4

de­bug PostgreSQL con­nec­tion pool ini­tial­ized host=db.in­ter­nal:5432 data­base=main pool_­size=20 ss­l_­mode=re­quire idle_­time­out=10000ms max_life­time=1800000ms

INFO Incoming re­quest method=GET path=/​api/​v1/​users/​me ip=192.168.1.42 user_a­gent=“Mozilla/​5.0” re­quest_id=re­q_8f7a2b3c trace_id=abc123de­f456

de­bug JWT to­ken val­i­da­tion started is­suer=auth.com­pany.com au­di­ence=api.com­pany.com exp=1703044800 iat=1703041200 sub=user_abc123 scope=“read write”

WARN Slow data­base query de­tected du­ra­tion_ms=847 query=“SE­LECT u.*, o.name FROM users u JOIN orgs o ON u.org_id = o.id WHERE u.org_id = $1 AND u.delet­ed_at IS NULL” rows_re­turned=2847

de­bug Redis cache lookup failed key=users:org_12345:list:v2 ttl_sec­onds=3600 fall­back­_s­trat­egy=data­base cache_­clus­ter=re­dis-prod-01 la­ten­cy_ms=2

info Request com­pleted suc­cess­fully sta­tus=200 du­ra­tion_ms=1247 bytes_sent=48291 re­quest_id=re­q_8f7a2b3c cache_hit=false db_­queries=3 ex­ter­nal_­calls=1

ERROR Database con­nec­tion pool ex­hausted ac­tive_­con­nec­tions=20 wait­ing_re­quests=147 time­out_ms=30000 ser­vice=post­gres sug­ges­tion=“Con­sider in­creas­ing pool_­size or op­ti­miz­ing queries”

warn Retrying failed HTTP re­quest at­tempt=1 max_at­tempts=3 back­of­f_ms=100 er­ror_­code=ETIMED­OUT tar­get_ser­vice=pay­ment-gate­way end­point=/​v1/​charges cir­cuit_s­tate=closed

INFO Circuit breaker state tran­si­tion ser­vice=pay­ment-api pre­vi­ous_s­tate=closed cur­ren­t_s­tate=open fail­ure_­count=5 fail­ure_thresh­old=5 re­set_­time­out_ms=30000

de­bug Background job ex­e­cuted suc­cess­fully job_id=job_9x8w7v6u type=week­ly_e­mail_di­gest du­ra­tion_ms=2341 email­s_sent=1847 fail­ures=3 queue=de­fault pri­or­ity=low

ERROR Memory pres­sure crit­i­cal heap_used_bytes=1932735283 heap_lim­it_bytes=2147483648 gc_­pause_ms=847 gc_­type=ma­jor rss_bytes=2415919104 ex­ter­nal_bytes=8847291

WARN Rate limit thresh­old ap­proach­ing user_id=user_abc123 cur­ren­t_re­quests=890 limit=1000 win­dow_sec­onds=60 re­main­ing=110 re­set_at=2024-12-20T03:15:00Z

info WebSocket con­nec­tion es­tab­lished clien­t_id=ws_7f8g9h2j pro­to­col=wss rooms=[“team_up­dates”,“no­ti­fi­ca­tions”,“pres­ence”] user_id=user_abc123 ip=192.168.1.42

de­bug Kafka mes­sage con­sumed suc­cess­fully topic=user-events par­ti­tion=3 off­set=1847291 key=user_abc123 con­sumer_­group=api-con­sumers lag=12 pro­cess­ing_­time_ms=45

INFO Health check passed ser­vice=api-gate­way up­time_sec­onds=847291 ac­tive_­con­nec­tions=142 mem­o­ry_us­age_per­cent=73 cpu_us­age_per­cent=45 sta­tus=healthy ver­sion=2.4.1

de­bug S3 up­load com­pleted bucket=com­pany-up­loads key=avatars/​user_abc123/​pro­file.jpg size_bytes=245891 con­tent_­type=im­age/​jpeg du­ra­tion_ms=892 re­gion=us-east-1

warn Deprecated API ver­sion de­tected end­point=/​api/​v1/​legacy/​users ver­sion=v1 rec­om­mend­ed_ver­sion=v3 dep­re­ca­tion_­date=2025-01-15 clien­t_id=mo­bile-app-ios

INFO HttpServer started suc­cess­fully bind­ing=0.0.0.0:3000 pid=28471 env=pro­duc­tion ver­sion=2.4.1 node_env=pro­duc­tion clus­ter_­mode=en­abled work­ers=4

de­bug PostgreSQL con­nec­tion pool ini­tial­ized host=db.in­ter­nal:5432 data­base=main pool_­size=20 ss­l_­mode=re­quire idle_­time­out=10000ms max_life­time=1800000ms

INFO Incoming re­quest method=GET path=/​api/​v1/​users/​me ip=192.168.1.42 user_a­gent=“Mozilla/​5.0” re­quest_id=re­q_8f7a2b3c trace_id=abc123de­f456

de­bug JWT to­ken val­i­da­tion started is­suer=auth.com­pany.com au­di­ence=api.com­pany.com exp=1703044800 iat=1703041200 sub=user_abc123 scope=“read write”

WARN Slow data­base query de­tected du­ra­tion_ms=847 query=“SE­LECT u.*, o.name FROM users u JOIN orgs o ON u.org_id = o.id WHERE u.org_id = $1 AND u.delet­ed_at IS NULL” rows_re­turned=2847

de­bug Redis cache lookup failed key=users:org_12345:list:v2 ttl_sec­onds=3600 fall­back­_s­trat­egy=data­base cache_­clus­ter=re­dis-prod-01 la­ten­cy_ms=2

info Request com­pleted suc­cess­fully sta­tus=200 du­ra­tion_ms=1247 bytes_sent=48291 re­quest_id=re­q_8f7a2b3c cache_hit=false db_­queries=3 ex­ter­nal_­calls=1

ERROR Database con­nec­tion pool ex­hausted ac­tive_­con­nec­tions=20 wait­ing_re­quests=147 time­out_ms=30000 ser­vice=post­gres sug­ges­tion=“Con­sider in­creas­ing pool_­size or op­ti­miz­ing queries”

warn Retrying failed HTTP re­quest at­tempt=1 max_at­tempts=3 back­of­f_ms=100 er­ror_­code=ETIMED­OUT tar­get_ser­vice=pay­ment-gate­way end­point=/​v1/​charges cir­cuit_s­tate=closed

INFO Circuit breaker state tran­si­tion ser­vice=pay­ment-api pre­vi­ous_s­tate=closed cur­ren­t_s­tate=open fail­ure_­count=5 fail­ure_thresh­old=5 re­set_­time­out_ms=30000

de­bug Background job ex­e­cuted suc­cess­fully job_id=job_9x8w7v6u type=week­ly_e­mail_di­gest du­ra­tion_ms=2341 email­s_sent=1847 fail­ures=3 queue=de­fault pri­or­ity=low

ERROR Memory pres­sure crit­i­cal heap_used_bytes=1932735283 heap_lim­it_bytes=2147483648 gc_­pause_ms=847 gc_­type=ma­jor rss_bytes=2415919104 ex­ter­nal_bytes=8847291

WARN Rate limit thresh­old ap­proach­ing user_id=user_abc123 cur­ren­t_re­quests=890 limit=1000 win­dow_sec­onds=60 re­main­ing=110 re­set_at=2024-12-20T03:15:00Z

info WebSocket con­nec­tion es­tab­lished clien­t_id=ws_7f8g9h2j pro­to­col=wss rooms=[“team_up­dates”,“no­ti­fi­ca­tions”,“pres­ence”] user_id=user_abc123 ip=192.168.1.42

de­bug Kafka mes­sage con­sumed suc­cess­fully topic=user-events par­ti­tion=3 off­set=1847291 key=user_abc123 con­sumer_­group=api-con­sumers lag=12 pro­cess­ing_­time_ms=45

INFO Health check passed ser­vice=api-gate­way up­time_sec­onds=847291 ac­tive_­con­nec­tions=142 mem­o­ry_us­age_per­cent=73 cpu_us­age_per­cent=45 sta­tus=healthy ver­sion=2.4.1

de­bug S3 up­load com­pleted bucket=com­pany-up­loads key=avatars/​user_abc123/​pro­file.jpg size_bytes=245891 con­tent_­type=im­age/​jpeg du­ra­tion_ms=892 re­gion=us-east-1

warn Deprecated API ver­sion de­tected end­point=/​api/​v1/​legacy/​users ver­sion=v1 rec­om­mend­ed_ver­sion=v3 dep­re­ca­tion_­date=2025-01-15 clien­t_id=mo­bile-app-ios

And here’s how to make it bet­ter.

Slow data­base query de­tected du­ra­tion_ms=847 query=“SE­LECT u.*, o.name FROM users u JOIN orgs o ON u.org_id = o.id WHERE u.org_id = $1 AND u.delet­ed_at IS NULL” rows_re­turned=2847

Slow data­base query de­tected du­ra­tion_ms=847 query=“SE­LECT u.*, o.name FROM users u JOIN orgs o ON u.org_id = o.id WHERE u.org_id = $1 AND u.delet­ed_at IS NULL” rows_re­turned=2847

INFO HttpServer started suc­cess­fully bind­ing=0.0.0.0:3000 pid=28471 env=pro­duc­tion ver­sion=2.4.1 node_env=pro­duc­tion clus­ter_­mode=en­abled work­ers=4

de­bug PostgreSQL con­nec­tion pool ini­tial­ized host=db.in­ter­nal:5432 data­base=main pool_­size=20 ss­l_­mode=re­quire idle_­time­out=10000ms max_life­time=1800000ms

INFO Incoming re­quest method=GET path=/​api/​v1/​users/​me ip=192.168.1.42 user_a­gent=“Mozilla/​5.0” re­quest_id=re­q_8f7a2b3c trace_id=abc123de­f456

de­bug JWT to­ken val­i­da­tion started is­suer=auth.com­pany.com au­di­ence=api.com­pany.com exp=1703044800 iat=1703041200 sub=user_abc123 scope=“read write”

WARN Slow data­base query de­tected du­ra­tion_ms=847 query=“SE­LECT u.*, o.name FROM users u JOIN orgs o ON u.org_id = o.id WHERE u.org_id = $1 AND u.delet­ed_at IS NULL” rows_re­turned=2847

de­bug Redis cache lookup failed key=users:org_12345:list:v2 ttl_sec­onds=3600 fall­back­_s­trat­egy=data­base cache_­clus­ter=re­dis-prod-01 la­ten­cy_ms=2

info Request com­pleted suc­cess­fully sta­tus=200 du­ra­tion_ms=1247 bytes_sent=48291 re­quest_id=re­q_8f7a2b3c cache_hit=false db_­queries=3 ex­ter­nal_­calls=1

ERROR Database con­nec­tion pool ex­hausted ac­tive_­con­nec­tions=20 wait­ing_re­quests=147 time­out_ms=30000 ser­vice=post­gres sug­ges­tion=“Con­sider in­creas­ing pool_­size or op­ti­miz­ing queries”

warn Retrying failed HTTP re­quest at­tempt=1 max_at­tempts=3 back­of­f_ms=100 er­ror_­code=ETIMED­OUT tar­get_ser­vice=pay­ment-gate­way end­point=/​v1/​charges cir­cuit_s­tate=closed

INFO Circuit breaker state tran­si­tion ser­vice=pay­ment-api pre­vi­ous_s­tate=closed cur­ren­t_s­tate=open fail­ure_­count=5 fail­ure_thresh­old=5 re­set_­time­out_ms=30000

de­bug Background job ex­e­cuted suc­cess­fully job_id=job_9x8w7v6u type=week­ly_e­mail_di­gest du­ra­tion_ms=2341 email­s_sent=1847 fail­ures=3 queue=de­fault pri­or­ity=low

ERROR Memory pres­sure crit­i­cal heap_used_bytes=1932735283 heap_lim­it_bytes=2147483648 gc_­pause_ms=847 gc_­type=ma­jor rss_bytes=2415919104 ex­ter­nal_bytes=8847291

WARN Rate limit thresh­old ap­proach­ing user_id=user_abc123 cur­ren­t_re­quests=890 limit=1000 win­dow_sec­onds=60 re­main­ing=110 re­set_at=2024-12-20T03:15:00Z

info WebSocket con­nec­tion es­tab­lished clien­t_id=ws_7f8g9h2j pro­to­col=wss rooms=[“team_up­dates”,“no­ti­fi­ca­tions”,“pres­ence”] user_id=user_abc123 ip=192.168.1.42

de­bug Kafka mes­sage con­sumed suc­cess­fully topic=user-events par­ti­tion=3 off­set=1847291 key=user_abc123 con­sumer_­group=api-con­sumers lag=12 pro­cess­ing_­time_ms=45

INFO Health check passed ser­vice=api-gate­way up­time_sec­onds=847291 ac­tive_­con­nec­tions=142 mem­o­ry_us­age_per­cent=73 cpu_us­age_per­cent=45 sta­tus=healthy ver­sion=2.4.1

de­bug S3 up­load com­pleted bucket=com­pany-up­loads key=avatars/​user_abc123/​pro­file.jpg size_bytes=245891 con­tent_­type=im­age/​jpeg du­ra­tion_ms=892 re­gion=us-east-1

warn Deprecated API ver­sion de­tected end­point=/​api/​v1/​legacy/​users ver­sion=v1 rec­om­mend­ed_ver­sion=v3 dep­re­ca­tion_­date=2025-01-15 clien­t_id=mo­bile-app-ios

INFO HttpServer started suc­cess­fully bind­ing=0.0.0.0:3000 pid=28471 env=pro­duc­tion ver­sion=2.4.1 node_env=pro­duc­tion clus­ter_­mode=en­abled work­ers=4

de­bug PostgreSQL con­nec­tion pool ini­tial­ized host=db.in­ter­nal:5432 data­base=main pool_­size=20 ss­l_­mode=re­quire idle_­time­out=10000ms max_life­time=1800000ms

INFO Incoming re­quest method=GET path=/​api/​v1/​users/​me ip=192.168.1.42 user_a­gent=“Mozilla/​5.0” re­quest_id=re­q_8f7a2b3c trace_id=abc123de­f456

de­bug JWT to­ken val­i­da­tion started is­suer=auth.com­pany.com au­di­ence=api.com­pany.com exp=1703044800 iat=1703041200 sub=user_abc123 scope=“read write”

WARN Slow data­base query de­tected du­ra­tion_ms=847 query=“SE­LECT u.*, o.name FROM users u JOIN orgs o ON u.org_id = o.id WHERE u.org_id = $1 AND u.delet­ed_at IS NULL” rows_re­turned=2847

de­bug Redis cache lookup failed key=users:org_12345:list:v2 ttl_sec­onds=3600 fall­back­_s­trat­egy=data­base cache_­clus­ter=re­dis-prod-01 la­ten­cy_ms=2

info Request com­pleted suc­cess­fully sta­tus=200 du­ra­tion_ms=1247 bytes_sent=48291 re­quest_id=re­q_8f7a2b3c cache_hit=false db_­queries=3 ex­ter­nal_­calls=1

ERROR Database con­nec­tion pool ex­hausted ac­tive_­con­nec­tions=20 wait­ing_re­quests=147 time­out_ms=30000 ser­vice=post­gres sug­ges­tion=“Con­sider in­creas­ing pool_­size or op­ti­miz­ing queries”

warn Retrying failed HTTP re­quest at­tempt=1 max_at­tempts=3 back­of­f_ms=100 er­ror_­code=ETIMED­OUT tar­get_ser­vice=pay­ment-gate­way end­point=/​v1/​charges cir­cuit_s­tate=closed

INFO Circuit breaker state tran­si­tion ser­vice=pay­ment-api pre­vi­ous_s­tate=closed cur­ren­t_s­tate=open fail­ure_­count=5 fail­ure_thresh­old=5 re­set_­time­out_ms=30000

de­bug Background job ex­e­cuted suc­cess­fully job_id=job_9x8w7v6u type=week­ly_e­mail_di­gest du­ra­tion_ms=2341 email­s_sent=1847 fail­ures=3 queue=de­fault pri­or­ity=low

ERROR Memory pres­sure crit­i­cal heap_used_bytes=1932735283 heap_lim­it_bytes=2147483648 gc_­pause_ms=847 gc_­type=ma­jor rss_bytes=2415919104 ex­ter­nal_bytes=8847291

WARN Rate limit thresh­old ap­proach­ing user_id=user_abc123 cur­ren­t_re­quests=890 limit=1000 win­dow_sec­onds=60 re­main­ing=110 re­set_at=2024-12-20T03:15:00Z

info WebSocket con­nec­tion es­tab­lished clien­t_id=ws_7f8g9h2j pro­to­col=wss rooms=[“team_up­dates”,“no­ti­fi­ca­tions”,“pres­ence”] user_id=user_abc123 ip=192.168.1.42

de­bug Kafka mes­sage con­sumed suc­cess­fully topic=user-events par­ti­tion=3 off­set=1847291 key=user_abc123 con­sumer_­group=api-con­sumers lag=12 pro­cess­ing_­time_ms=45

INFO Health check passed ser­vice=api-gate­way up­time_sec­onds=847291 ac­tive_­con­nec­tions=142 mem­o­ry_us­age_per­cent=73 cpu_us­age_per­cent=45 sta­tus=healthy ver­sion=2.4.1

de­bug S3 up­load com­pleted bucket=com­pany-up­loads key=avatars/​user_abc123/​pro­file.jpg size_bytes=245891 con­tent_­type=im­age/​jpeg du­ra­tion_ms=892 re­gion=us-east-1

warn Deprecated API ver­sion de­tected end­point=/​api/​v1/​legacy/​users ver­sion=v1 rec­om­mend­ed_ver­sion=v3 dep­re­ca­tion_­date=2025-01-15 clien­t_id=mo­bile-app-ios

And here’s how to make it bet­ter.

Your logs are ly­ing to you. Not ma­li­ciously. They’re just not equipped to tell the truth.

You’ve prob­a­bly spent hours grep-ing through logs try­ing to un­der­stand why a user could­n’t check out, why that web­hook failed, or why your p99 la­tency spiked at 3am. You found noth­ing use­ful. Just time­stamps and vague mes­sages that mock you with their use­less­ness.

This is­n’t your fault. Logging, as it’s com­monly prac­ticed, is fun­da­men­tally bro­ken. And no, slap­ping OpenTelemetry on your code­base won’t mag­i­cally fix it.

Let me show you what’s wrong, and more im­por­tantly, how to fix it.

Logs were de­signed for a dif­fer­ent era. An era of mono­liths, sin­gle servers, and prob­lems you could re­pro­duce lo­cally. Today, a sin­gle user re­quest might touch 15 ser­vices, 3 data­bases, 2 caches, and a mes­sage queue. Your logs are still act­ing like it’s 2005.

Here’s what a typ­i­cal log­ging setup looks like:

That’s 13 log lines for a sin­gle suc­cess­ful re­quest. Now mul­ti­ply that by 10,000 con­cur­rent users. You’ve got 130,000 log lines per sec­ond. Most of them say­ing ab­solutely noth­ing use­ful.

But here’s the real prob­lem: when some­thing goes wrong, these logs won’t help you. They’re miss­ing the one thing you need: con­text.

When a user re­ports “I can’t com­plete my pur­chase,” your first in­stinct is to search your logs. You type their email, or maybe their user ID, and hit en­ter.

String search treats logs as bags of char­ac­ters. It has no un­der­stand­ing of struc­ture, no con­cept of re­la­tion­ships, no way to cor­re­late events across ser­vices.

When you search for “user-123”, you might find it logged 47 dif­fer­ent ways across your code­base:

And those are just the logs that in­clude the user ID. What about the down­stream ser­vice that only logged the or­der ID? Now you need a sec­ond search. And a third. You’re play­ing de­tec­tive with one hand tied be­hind your back.

The fun­da­men­tal prob­lem: logs are op­ti­mized for writ­ing, not for query­ing.

Developers write con­sole.log(“Pay­ment failed”) be­cause it’s easy in the mo­ment. Nobody thinks about the poor soul who’ll be search­ing for this at 2am dur­ing an out­age.

Before I show you the fix, let me de­fine some terms. These get thrown around a lot, of­ten in­cor­rectly.

Structured Logging: Logs emit­ted as key-value pairs (usually JSON) in­stead of plain strings. {“event”: “payment_failed”, “user_id”: “123″} in­stead of “Payment failed for user 123”. Structured log­ging is nec­es­sary but not suf­fi­cient.

Cardinality: The num­ber of unique val­ues a field can have. user_id has high car­di­nal­ity (millions of unique val­ues). http_method has low car­di­nal­ity (GET, POST, PUT, DELETE, etc.). High car­di­nal­ity fields are what make logs ac­tu­ally use­ful for de­bug­ging.

Dimensionality: The num­ber of fields in your log event. A log with 5 fields has low di­men­sion­al­ity. A log with 50 fields has high di­men­sion­al­ity. More di­men­sions = more ques­tions you can an­swer.

Wide Event: A sin­gle, con­text-rich log event emit­ted per re­quest per ser­vice. Instead of 13 log lines for one re­quest, you emit 1 line with 50+ fields con­tain­ing every­thing you might need to de­bug.

Canonical Log Line: Another term for wide event, pop­u­lar­ized by Stripe. One log line per re­quest that serves as the au­thor­i­ta­tive record of what hap­pened.

I see this take con­stantly: “Just use OpenTelemetry and your ob­serv­abil­ity prob­lems are solved.”

No. OpenTelemetry is a pro­to­col and a set of SDKs. It stan­dard­izes how teleme­try data (logs, traces, met­rics) is col­lected and ex­ported. This is gen­uinely use­ful: it means you’re not locked into a spe­cific ven­dor’s for­mat.

To use the Mastodon web ap­pli­ca­tion, please en­able JavaScript. Alternatively, try one of the na­tive apps for Mastodon for your plat­form.

Every com­pany says they “care about your pri­vacy.” It’s in every pri­vacy pol­icy, every mar­ket­ing page, every in­vestor deck. But if I can re­set your pass­word via email, I know who you are. If I log your IP, I know where you are. If I re­quire phone ver­i­fi­ca­tion, I have lever­age over you.

That’s not pri­vacy. That’s per­for­mance art.

In 2025, “privacy” has be­come the most abused word in tech. It’s slapped on prod­ucts that re­quire gov­ern­ment IDs, ser­vices that log every­thing, and plat­forms that could­n’t pro­tect user data if they tried.

Real anonymity is­n’t a mar­ket­ing claim. It’s an ar­chi­tec­tural de­ci­sion that makes it im­pos­si­ble to com­pro­mise users, even if you wanted to. Even if some­one put a gun to your head. Even if a three-let­ter agency showed up with a war­rant.

Let me show you the dif­fer­ence.

Here’s how the av­er­age “privacy-focused” ser­vice ac­tu­ally works:

User Journey:

1. Enter email ad­dress

2. Verify email (now we have your email)

3. Create pass­word (now we can re­set it via email)

4. Add phone for “security” (now we have your phone)

5. Confirm iden­tity for “fraud pre­ven­tion” (now we have your ID)

6. Enable 2FA (more iden­tity vec­tors)

Privacy Policy:

“We care deeply about your pri­vacy and only col­lect

nec­es­sary in­for­ma­tion to pro­vide our ser­vices…”

Translation:

We have every­thing. We log every­thing.

We just promise to be care­ful with it.

The prob­lem is­n’t mal­ice. Most ser­vices gen­uinely try to pro­tect user data. But pro­tec­tion im­plies pos­ses­sion. And pos­ses­sion is the vul­ner­a­bil­ity.

You can’t leak what you don’t have. You can’t be forced to hand over what does­n’t ex­ist.

In 2023, Swedish po­lice raided Mullvad VPN’s of­fices with a search war­rant. They wanted user data. Customer in­for­ma­tion. Connection logs. Anything.

Not be­cause Mullvad re­fused to co­op­er­ate. Not be­cause they hid the data. But be­cause there was no data to give. Mullvad’s en­tire iden­tity sys­tem is a ran­domly gen­er­ated ac­count num­ber. No email. No name. No records.

Mullvad’s en­tire au­then­ti­ca­tion sys­tem: 16 ran­dom dig­its. That’s it. That’s the whole iden­tity.

When the po­lice re­al­ized this, they could­n’t even ar­gue. The ar­chi­tec­ture made com­pli­ance im­pos­si­ble. Not dif­fi­cult. Impossible.

That’s what real anonymity looks like.

How We Built The Same Thing

When we de­signed Servury, we asked our­selves: what’s the min­i­mum in­for­ma­tion needed to run a cloud host­ing plat­form?

Turns out, not much:

// What we DON’T col­lect:

- Email ad­dress (no re­cov­ery, no mar­ket­ing, no leaks)

- Name (we don’t care who you are)

- IP ad­dresses (not logged, not stored, not tracked)

- Payment in­for­ma­tion (handled by proces­sors, not us)

- Usage pat­terns (no an­a­lyt­ics, no teleme­try, noth­ing)

- Device fin­ger­prints (your browser, your busi­ness)

- Geographic data (beyond what’s needed for server se­lec­tion)

// What we DO store:

- 32-character cre­den­tial (random al­phanu­meric string)

- Account bal­ance (need to know if you can de­ploy)

- Active ser­vices (servers and prox­ies you’re run­ning)

That’s it. Three data points.

No “forgot pass­word” link. No email ver­i­fi­ca­tion. No phone num­ber for “account se­cu­rity.” Because every one of those fea­tures re­quires stor­ing iden­tity, and iden­tity is the at­tack sur­face.

The Trade-Off Nobody Talks About

Here’s the part where other “privacy” com­pa­nies qui­etly change the sub­ject: lose your cre­den­tial, you’re done.

No re­cov­ery process. No sup­port ticket that can re­store ac­cess. No “verify your iden­tity” work­flow. If that 32-character string dis­ap­pears, so does your ac­count.

And you know what? That’s ex­actly the point.

Traditional ser­vice: “We can help you re­cover your ac­count by ver­i­fy­ing your iden­tity”

Translation: We know who you are, and we can prove it.

Servury: “We lit­er­ally can­not help you re­cover your ac­count”

Translation: We have no idea who you are, and that’s by de­sign.

The in­con­ve­nience of mem­o­riz­ing (or se­curely stor­ing) a ran­dom string is the cost of anonymity. Anyone who tells you that you can have both per­fect anonymity AND easy ac­count re­cov­ery is ly­ing or does­n’t un­der­stand the threat model.

What This Actually Means In Practice

“Hi Servury sup­port, I lost ac­cess to my ac­count. Can you help me re­cover it?”

“I’m sorry, but we have no way to ver­ify ac­count own­er­ship. If you don’t have your cre­den­tial, the ac­count is in­ac­ces­si­ble to every­one, in­clud­ing us.”

“But I can prove it’s me! Here’s my pay­ment re­ceipt, my IP ad­dress, the ex­act time I signed up—”

“We don’t store any of that in­for­ma­tion. There’s noth­ing to match against.”

Is this frus­trat­ing for users who lose their cre­den­tials? Absolutely. Is it a fea­ture? Absolutely.

Because on the flip side:

Hackers can’t phish or re­set your cre­den­tials via email

We can’t ac­ci­den­tally leak your per­sonal in­for­ma­tion (because we don’t have it)

No gov­ern­ment can force us to re­veal who you are (because we gen­uinely don’t know)

Email ad­dresses are the orig­i­nal sin of mod­ern in­ter­net iden­tity. They seem harm­less. Universal. Convenient. And they com­pletely de­stroy anonymity.

Why email kills anonymity:

1. Email IS iden­tity

- Tied to phone num­bers

- Tied to pay­ment meth­ods

- Tied to other ser­vices

- Recovery mech­a­nisms ex­pose you

2. Email IS track­able

- Read re­ceipts

- Link track­ing

- Metadata analy­sis

- Cross-service cor­re­la­tion

3. Email IS per­sis­tent

- Exists be­yond sin­gle ser­vice

- Archived for­ever

- Subpoenaed retroac­tively

- Leaked in breaches

4. Email IS so­cial en­gi­neer­ing

- Phishing vec­tor

- Password re­set vul­ner­a­bil­ity

- Support ticket ex­ploita­tion

- Impersonation risk

The mo­ment you re­quire an email ad­dress, you’re not build­ing for anonymity. You’re build­ing for ac­count­abil­ity. And some­times that’s fine! Banks should know who you are. Government ser­vices should ver­ify iden­tity. But cloud in­fra­struc­ture? VPNs? Proxy ser­vices?

We should­n’t need to know a damn thing about you.

Crypto Payments: Not Just For Criminals

We ac­cept cryp­tocur­rency not be­cause we’re try­ing to hide from au­thor­i­ties. We ac­cept it be­cause tra­di­tional pay­ment sys­tems are sur­veil­lance in­fra­struc­ture.

Every credit card trans­ac­tion cre­ates a per­ma­nent record link­ing your iden­tity to your pur­chase. Your bank knows. The pay­ment proces­sor knows. The mer­chant knows. And they all store it. Forever.

Cryptocurrency breaks that chain. Not per­fectly—blockchain analy­sis is a thing—but enough to de­cou­ple pay­ment from per­sis­tent iden­tity. Especially when com­bined with no-email reg­is­tra­tion.

And for those who need tra­di­tional pay­ments? We sup­port Stripe. Because prag­ma­tism mat­ters. But we don’t pre­tend that credit card pay­ments are anony­mous. We’re hon­est about the trade-offs.

Let’s be crys­tal clear about what we’re NOT claim­ing:

Anonymity ≠ Impunity

If you use our servers for il­le­gal ac­tiv­ity, law en­force­ment can still in­ves­ti­gate. They just can’t start with “who owns this ac­count” be­cause we can’t an­swer that ques­tion.

Anonymity ≠ Security

Your cre­den­tial is just a ran­dom string. If you save it in plain­text on your desk­top, that’s on you. Anonymity from us does­n’t mean anonymity from your own bad opsec.

Anonymity ≠ Invisibility

Your server has an IP ad­dress. Your proxy con­nec­tions are vis­i­ble. We’re not magic. We just don’t tie those tech­ni­cal iden­ti­fiers back to your per­sonal iden­tity.

Anonymity ≠ Zero Trust Required

You still have to trust that we’re ac­tu­ally do­ing what we say. Open source code, trans­parency re­ports, and in­de­pen­dent au­dits help, but per­fect trust­less­ness is im­pos­si­ble in hosted in­fra­struc­ture.

Microsoft won’t let you dis­miss the up­grade no­ti­fi­ca­tion

So sup­port for Windows 10 has ended. Yes, mil­lions of users are still on it. One of my main lap­tops runs Windows 10. I can’t up­date to Windows 11 be­cause of the hard­ware re­quire­ments. It’s not that I don’t have enough RAM, stor­age, or CPU power. The hard­ware lim­i­ta­tion is specif­i­cally TPM 2.0.

What is TPM 2.0, you say? It stands for Trusted Platform Module. It’s ba­si­cally a se­cu­rity chip on the moth­er­board that en­ables some se­cu­rity fea­tures. It’s good and all, but Windows says my lap­top does­n’t sup­port it. Great! Now leave me alone.

Well, every time I turn on my com­puter, I get a re­minder that I need to up­date to Windows 11. OK, at this point a Windows ma­chine only be­longs to you in name. Microsoft can run ar­bi­trary code on it. They al­ready ran the code to de­cide that my com­puter does­n’t sup­port Windows 11. So why do they keep both­er­ing me?

Fine, I’m frus­trated. That’s why I’m com­plain­ing. I’ve ac­cepted the fact that my pow­er­ful, yet 10-year-old lap­top won’t get the lat­est up­date. But if Microsoft’s own sys­tems have de­ter­mined my hard­ware is in­com­pat­i­ble, why are they ha­rass­ing? I’ll just have to dis­miss this no­ti­fi­ca­tion and call it a day.

But wait a minute. How do I dis­miss it?

I can­not dis­miss it. I can only be re­minded later or… I have to learn more. If I click “remind me later,” I’m ba­si­cally telling Microsoft that I con­sent to be­ing shown the same mes­sage again when­ever they feel like it. If I click “learn more”? I’m taken to the Windows Store, where I’m shown ads for dif­fer­ent lap­tops I can buy in­stead. Apparently, I’m also prob­a­bly giv­ing them con­sent to show me this ad the next time I log in.

It’s one thing to be at the fore­front of en­shit­ti­fi­ca­tion, but Microsoft is now ac­tively hos­tile to its users. I’ve writ­ten about this pas­sive-ag­gres­sive il­lu­sion of choice be­fore. They are ba­si­cally ask­ing “Do you want to buy a new lap­top?” And the op­tions they are pre­sent­ing are “Yes” and “OK.”

This is­n’t a bug. This is in­ten­tional de­sign. Microsoft has de­lib­er­ately re­moved the abil­ity to de­cline.

Listen. You said my de­vice does­n’t sup­port Windows 11. You’re right. Now leave me alone. I have an­other de­vice run­ning Windows 11. It’s fes­tered with ads, and you’re try­ing every­thing in your power to get me to cre­ate a Microsoft ac­count.

I paid for that com­puter. I also paid for a pro ver­sion of the OS. I don’t want OneDrive. I don’t want to sign up with my Microsoft ac­count. Whether I use my com­puter on­line or of­fline is none of your busi­ness. In fact, if you want me to cre­ate an ac­count on your servers, you are first re­quired to reg­is­ter your OS on my own web­site. The terms and con­di­tions are sim­ple. Every time you per­form any net­work ac­cess, you have to send a copy of the pay­load and re­sponse back to my server. Either that, or you’re in breach of my terms.

By the way, the ap­pli­ca­tion show­ing this no­ti­fi­ca­tion is called Reusable UX Interaction Manager some­times. Other times it ap­pears as Campaign Manager.

Want to learn more or try Ruby?

Try Ruby

Why do pro­gram­mers around the world love Ruby? What makes it fun?

Rich gems sup­port all kinds of de­vel­op­ment.

Mature tool­ing ready to use.

Ruby has a vast col­lec­tion of li­braries called gems, sup­port­ing every­thing from web de­vel­op­ment to data pro­cess­ing.

With ma­ture frame­works like Rails and com­pre­hen­sive tool­chains, you can com­bine ex­cel­lent ex­ist­ing re­sources

to build high-qual­ity ap­pli­ca­tions quickly with­out rein­vent­ing the wheel.

When I re­leased Ruby to the world, I never imag­ined such a rich ecosys­tem would grow from it.

Over 200,000 gems, Ruby on Rails, RSpec, Bundler—it was the com­mu­nity that cre­ated and nur­tured all of these.

My wish to “make pro­gram­mers happy” has been re­al­ized in ways I could never have achieved alone.

Easy to write, easy to read.

Natural syn­tax like spo­ken lan­guage.

Ruby has a sim­ple and in­tu­itive syn­tax that reads like nat­ural lan­guage.

By elim­i­nat­ing com­plex sym­bols and ver­bose con­structs, Ruby’s de­sign phi­los­o­phy al­lows you to ex­press what you want di­rectly.

With min­i­mal boil­er­plate and high read­abil­ity, it’s friendly to be­gin­ners and main­tain­able for ex­pe­ri­enced de­vel­op­ers.

Ruby is just the most beau­ti­ful pro­gram­ming lan­guage I have ever seen.

And I pay a fair amount of at­ten­tion to new pro­gram­ming lan­guages that are com­ing up,

new en­vi­ron­ments, new frame­works, and I’ve still yet to see any­thing that meets or beats Ruby in its pure­ness of its de­sign.

Do more with less code.

Intuitive syn­tax ac­cel­er­ates de­vel­op­ment.

Ruby’s ex­pres­sive syn­tax al­lows you to write com­plex logic con­cisely.

By lever­ag­ing pow­er­ful fea­tures like metapro­gram­ming and blocks, you can re­duce rep­e­ti­tion and fo­cus on solv­ing core prob­lems.

With rich test­ing frame­works, you can main­tain qual­ity while achiev­ing rapid de­vel­op­ment cy­cles.

Ruby turns ideas into code fast.

Its sim­plic­ity keeps me fo­cused; its ex­pres­sive­ness lets me write the way I think.

It feels like the lan­guage gets out of the way, leav­ing just me and the prob­lem.

With great tools and li­braries, ideas quickly be­come run­ning, el­e­gant, code.

The Ruby com­mu­nity em­braces the cul­ture of “Matz is nice and so we are nice (MINASWAN),”

wel­com­ing every­one from be­gin­ners to ex­perts. Conferences and mee­tups around the world fos­ter knowl­edge shar­ing and con­nec­tions.

It’s a warm, sus­tain­able com­mu­nity where peo­ple help each other and grow to­gether.

The Ruby com­mu­nity is filled with tal­ent and cre­ativ­ity, de­vel­op­ers at­tracted to Ruby’s el­e­gant syn­tax who pro­gram for the joy of it.

It’s a vi­brant, wel­com­ing com­mu­nity will­ing to share this love of pro­gram­ming with every­one.

This spirit of warmth and col­lab­o­ra­tion is hands down Ruby’s great­est as­set.

People who en­gage with Ruby be­yond be­ing just users are called Rubyists.

Rubyists who love Ruby are all nice #rubyfriends. Community ac­tiv­i­ties are thriv­ing and fun.

The uni­ver­sal motto is “MINASWAN” — Matz is nice and so we are nice

Learn more about the com­mu­nity

We are pleased to an­nounce the re­lease of Ruby 4.0.0-preview3.

Ruby 4.0 in­tro­duces Ruby::Box and “ZJIT”, and adds many im­prove­ments.

We are pleased to an­nounce the re­lease of Ruby 4.0.0-preview2. Ruby 4.0 up­dates its Unicode ver­sion to 17,0.0, and so on.

CVE-2025-24294: Possible Denial of Service in re­solv gem

A sim­ple util­ity to con­vert phys­i­cal bar­codes into dig­i­tal passes for Apple Wallet®. Entirely free and runs di­rectly from your browser.

Position the QR code within the frame

[Revised] You Don’t Need to Spend $100/mo on Claude Code: Your Guide to Local Coding ModelsWhat you need to know about lo­cal model tool­ing and the steps for set­ting one up your­self[Edit 1] This ar­ti­cle has been edited af­ter ini­tial re­lease for clar­ity. Both the tl;dr and the end sec­tion have added in­for­ma­tion.[Edit 2] This hy­poth­e­sis was ac­tu­ally wrong and thank you to every­one who com­mented! Here’s a full ex­pla­na­tion of where I went wrong. I want to ad­dress this mis­take as I re­al­ize it might have a mean­ing­ful im­pact on some­one’s fi­nan­cial po­si­tion. I’m not edit­ing the ac­tual ar­ti­cle ex­cept where ab­solutely nec­es­sary so it does­n’t look like I’m cov­er­ing up the mis­take—I want to ad­dress it. Instead, I’ve in­cluded the im­por­tant in­for­ma­tion be­low. There is one take­away this ar­ti­cle pro­vides that def­i­nitely holds true:Lo­cal mod­els are far more ca­pa­ble than they’re given credit for, even for cod­ing.It also ex­plains the process of set­ting up a lo­cal cod­ing model and tech­ni­cal in­for­ma­tion about do­ing so which is help­ful for any­one want­ing to set up a lo­cal cod­ing model. I would still rec­om­mend do­ing so.But do I want some­one read­ing this to im­me­di­ately drop their cod­ing sub­scrip­tion and buy a maxed out MacBook Pro? No, and for that rea­son I need to cor­rect my hy­poth­e­sis from ‘Yes, with caveats’ to ‘No’.This ar­ti­cle was not an em­pir­i­cal as­sess­ment, but should have been to make these claims. Here’s where I went wrong:While lo­cal mod­els can likely com­plete ~90% of the soft­ware de­vel­op­ment tasks that some­thing like Claude Code can, the last 10% is the most im­por­tant. When it comes to your job, that last 10% is worth pay­ing more for to get that last bit of per­for­mance.I re­al­ized I looked at this more from the an­gle of a hob­bi­est pay­ing for these cod­ing tools. Someone do­ing lit­tle side pro­jects—not some­one in a pro­duc­tion set­ting. I did this be­cause I see a lot of peo­ple sign­ing up for $100/mo or $200/mo cod­ing sub­scrip­tions for per­sonal pro­jects when they likely don’t need to. I would not rec­om­mend run­ning lo­cal mod­els as a com­pany in­stead of giv­ing em­ploy­ees ac­cess to a tool like Claude Code.While larger lo­cal mod­els are very ca­pa­ble, as soon as you run other de­vel­op­ment tools (Docker, etc.) that also eat into your RAM, your model needs to be much smaller and be­comes a lot less ca­pa­ble. I did­n’t fac­tor this in in my ex­per­i­ment.So, re­ally, the take­away should be that these are in­cred­i­ble sup­ple­men­tal mod­els to fron­tier mod­els when cod­ing and could po­ten­tially save you on your sub­scrip­tion by drop­ping it down a tier, but prac­ti­cally they’re not worth the ef­fort in sit­u­a­tions that might af­fect your liveli­hood.Ex­actly a month ago, I made a hy­poth­e­sis: Instead of pay­ing $100/mo+ for an AI cod­ing sub­scrip­tion, my money would be bet­ter spent up­grad­ing my hard­ware so I can run lo­cal cod­ing mod­els at a frac­tion of the price (and have bet­ter hard­ware too!).So, to cre­ate by far the most ex­pen­sive ar­ti­cle I’ve ever writ­ten, I put my money where my mouth is and bought a MacBook Pro with 128 GB of RAM to get to work. My idea was sim­ple: Over the life of the MacBook I’d re­coup the costs of it by not pay­ing for an AI cod­ing sub­scrip­tion.Af­ter weeks of ex­per­i­ment­ing and set­ting up lo­cal AI mod­els and cod­ing tools, I’ve come to the con­clu­sion that my hy­poth­e­sis was cor­rect, with nu­ance, not cor­rect [see edit 2 above] which I’ll get into later in this ar­ti­cle.In this ar­ti­cle, we cover:Why lo­cal mod­els mat­ter and the ben­e­fits they pro­vide.How to view mem­ory us­age and make es­ti­mates for which mod­els can run on your ma­chine and the RAM de­mands for cod­ing ap­pli­ca­tions.Walk through set­ting up your own lo­cal cod­ing model and tool step-by-step.Don’t worry if you don’t have a high-RAM ma­chine! You can still fol­low this guide. I’ve in­cluded some mod­els to try out with a lower mem­ory al­lot­ment. I think you’ll be sur­prised at how per­for­mant even the small­est of mod­els is. In fact, there has­n’t re­ally been a time dur­ing this ex­per­i­ment that I’ve been dis­ap­pointed with model per­for­mance.If you’re only here for the lo­cal cod­ing tool setup, skip to the sec­tion at the bot­tom. I’ve even in­cluded a link to my mod­elfiles in that sec­tion to make setup even eas­ier for you. Otherwise, let’s get into what you need to know.Lo­cal cod­ing mod­els are very ca­pa­ble. Using the right model and the right tool­ing feels only half a gen­er­a­tion be­hind the fron­tier cloud tools. I would say that for about 90% of de­vel­oper work lo­cal mod­els are more than suf­fi­cient. Even small 7B pa­ra­me­ter mod­els can be very ca­pa­ble. [Edited to add in this next part] Local mod­els won’t com­pete with fron­tier mod­els at the peak of per­for­mance, but can com­plete many cod­ing tasks just as well for a frac­tion of the cost. They’re worth run­ning to bring costs down on plenty of tasks but po­ten­tially not worth us­ing if there’s a free tier avail­able that per­forms bet­ter.Tools mat­ter a lot. This is where I ex­pe­ri­enced the most dis­ap­point­ment. I tried many dif­fer­ent tools with many dif­fer­ent mod­els and spent a lot of time tin­ker­ing. I ran into sit­u­a­tions where the mod­els would­n’t call tools prop­erly or their think­ing traces would­n’t close. Both of these ren­dered the tool es­sen­tially use­less. Currently, tool­ing seems very finicky and if there’s any­thing de­vel­op­ers need to be suc­cess­ful, it’s good tools.There’s a lot to con­sider when you’re ac­tu­ally work­ing within hard­ware con­straints. We take the tool­ing set up for us in the cloud for granted. When set­ting up lo­cal mod­els, I had to think a lot about trade-offs in per­for­mance ver­sus mem­ory us­age, how dif­fer­ent tools com­pared and af­fected per­for­mance, nu­ances in types of mod­els, how to quan­tize, and other user-fac­ing fac­tors such as time-to-first-to­ken and to­kens per sec­ond.Google threw a wrench into my hy­poth­e­sis. The lo­cal setup is al­most a no-brainer when com­pared to a $100/mo+ sub­scrip­tion. Compared to free or nearly-free tool­ing (such as Gemini CLI, Jules, or Antigravity) there is­n’t quite as strong of a mon­e­tary jus­ti­fi­ca­tion to spend more on hard­ware. There are ben­e­fits to lo­cal mod­els out­side of code, though, and I dis­cuss those be­low. If the tl;dr was help­ful, don’t for­get to sub­scribe to get more in your in­box.You might won­der why lo­cal mod­els are worth in­vest­ing in at all. The ob­vi­ous an­swer is cost. By us­ing your own hard­ware, you don’t need to pay a sub­scrip­tion fee to a cloud provider for your tool. There are also a few less ob­vi­ous and un­der­rated rea­sons that make lo­cal mod­els use­ful.First: Reliability. Each week there seems to be com­plaints about per­for­mance re­gres­sion within AI cod­ing tools. Many spec­u­late com­pa­nies are pulling tricks to save re­sources that hurt model per­for­mance. With cloud providers, you’re at the mercy of the provider for when this hap­pens. With lo­cal mod­els, this only hap­pens when you cause it to.Sec­ond: Local mod­els can ap­ply to far more ap­pli­ca­tions. Just the other day I was hav­ing a dis­cus­sion with my dad about AI tool­ing he could use to stream­line his work. His job re­quires study­ing a lot of data—a per­fect ap­pli­ca­tion for an LLM-based tool—but his com­pany blocks tools like Gemini and ChatGPT be­cause a lot of this analy­sis is done on in­tel­lec­tual prop­erty. Unfortunately, he is­n’t pro­vided a suit­able al­ter­na­tive to use.With a lo­cal model, he would­n’t have to worry about these IP is­sues. He could run his analy­ses with­out data ever leav­ing his ma­chine. Of course, any tool call­ing would also need to en­sure data never leaves the ma­chine, but lo­cal mod­els get around one of the largest hur­dles for use­ful en­ter­prise AI adop­tion. Running mod­els on a lo­cal ma­chine opens up an en­tire world of pri­vacy- and se­cu­rity-cen­tric AI ap­pli­ca­tions that are ex­pen­sive for cloud providers to pro­vide.Fi­nally: Availability. Local mod­els are avail­able to you as long as your ma­chine is. This means no wor­ry­ing about your provider be­ing down or rate lim­it­ing you due to high traf­fic. It also means us­ing AI cod­ing tools on planes or in other sit­u­a­tions where in­ter­net ac­cess is locked down (think highly se­cure net­works).While lo­cal mod­els do pro­vide sig­nif­i­cant cost sav­ings, the flex­i­bil­ity and re­li­a­bil­ity they pro­vide can be even more valu­able.To get go­ing with lo­cal mod­els you must un­der­stand the mem­ory needed to run them on your ma­chine. Obviously, if you have more mem­ory you’ll be able to run bet­ter mod­els, but un­der­stand­ing the nu­ances of that mem­ory man­age­ment will help you pick out the right model for your use case.Lo­cal AI has two parts that eat up your mem­ory: The model it­self and the mod­el’s con­text win­dow.The ac­tual model has bil­lions of pa­ra­me­ters and all those pa­ra­me­ters need to fit into your mem­ory at once. Excellent lo­cal cod­ing mod­els start at around 30 bil­lion (30B, for short) pa­ra­me­ters in size. By de­fault, these mod­els use 16 bits to rep­re­sent pa­ra­me­ters. At 16 bits with 30B pa­ra­me­ters, a model will take 60 GB of space in RAM (16 bits = 2 bytes per pa­ra­me­ter, 30 bil­lion pa­ra­me­ters = 60 bil­lion bytes which equals about 60 GB).The sec­ond (and po­ten­tially larger) mem­ory con­sum­ing part of lo­cal AI is the mod­el’s con­text win­dow. This is the model in­puts and out­puts that are stored so the model can ref­er­ence them in fu­ture re­quests. This gives the model mem­ory.When cod­ing with AI, we pre­fer this win­dow to be as large as it can be­cause we need to fit our code­base (or pieces of it) within our con­text win­dow. This means we tar­get a con­text win­dow of 64,000 to­kens or larger. All of these to­kens will also be stored in RAM.The im­por­tant thing to un­der­stand about con­text win­dows is that the mem­ory re­quire­ment per-to­ken for a model de­pends on the size of that model. Models with more pa­ra­me­ters tend to have large ar­chi­tec­tures (more hid­den lay­ers and larger di­men­sions to those lay­ers). Larger ar­chi­tec­tures mean the model must store more in­for­ma­tion for each to­ken within its key-value cache (context win­dow) be­cause it stores in­for­ma­tion for each to­ken for each layer.This means choos­ing an 80B pa­ra­me­ter model over a 30B pa­ra­me­ter model re­quires more mem­ory for the model it­self and also more mem­ory for the same size con­text win­dow. For ex­am­ple, a 30B pa­ra­me­ter model might have a hid­den di­men­sion of 5120 with 64 lay­ers while an 80B model has a hid­den di­men­sion of 8192 with 80 lay­ers. Doing some back-of-the-nap­kin math shows us that the larger model re­quires ap­prox­i­mately 2x more RAM to main­tain the same con­text win­dow as the 30B pa­ra­me­ter model (see for­mula be­low).Luck­ily, there are tricks to bet­ter man­age mem­ory. First, there are ar­chi­tec­tural changes that can be made to make model in­fer­ence more ef­fi­cient so it re­quires less mem­ory. The model we set up at the end of this ar­ti­cle uses Hybrid Attention which en­ables a much smaller KV cache en­abling us to fit our model and con­text win­dow in less mem­ory. I won’t get into more de­tail in this ar­ti­cle, but you can read more about that model and how it works here.The sec­ond trick is quan­tiz­ing the val­ues you’re work­ing with. Quantization means con­vert­ing a con­tin­u­ous set of val­ues into a smaller amount of dis­tinct val­ues. In our case, that means tak­ing a set of num­bers rep­re­sented by a cer­tain num­ber of bits (16, for ex­am­ple) and re­duc­ing it to a set of num­bers rep­re­sented by fewer bits (8, for ex­am­ple). To put it sim­ply, in our case we’re con­vert­ing the num­bers rep­re­sent­ing our model to a smaller bit rep­re­sen­ta­tion to save mem­ory while keep­ing the value rep­re­sen­ta­tions within the model rel­a­tively equal.You can quan­tize both your model weights and the val­ues stored in your con­text win­dow. When you quan­tize your model weights, you “remove in­tel­li­gence” from the model be­cause it’s less pre­cise in its rep­re­sen­ta­tion of in­nate in­for­ma­tion. I’ve also found the per­for­mance hit when go­ing from 16 to 8 bits within the model to be much less than 8 to 4.We can also quan­tize the val­ues in our con­text win­dow to re­duce its mem­ory re­quire­ment. This means we’re less pre­cisely rep­re­sent­ing the mod­el’s mem­ory. Generally speak­ing, KV cache (context win­dow) quan­ti­za­tion is con­sid­ered more de­struc­tive to model per­for­mance than weight quan­ti­za­tion be­cause it causes the model to for­get de­tails in long rea­son­ing traces. Thus, you should test quan­tiz­ing the KV cache to en­sure it does­n’t de­grade model per­for­mance for your spe­cific task.In re­al­ity, like the rest of ma­chine learn­ing, op­ti­miz­ing lo­cal model per­for­mance is an ex­per­i­men­ta­tion process and real-world ma­chine learn­ing re­quires un­der­stand­ing the prac­ti­cal lim­i­ta­tions and ca­pa­bil­i­ties of mod­els when ap­plied to spe­cific ap­pli­ca­tions.Here are a few more fac­tors to un­der­stand when set­ting up a lo­cal cod­ing model on your hard­ware:In­struct mod­els are post-trained to be well-suited for chat-based in­ter­ac­tions. They’re given chat pair­ings in their train­ing to be op­ti­mized for ex­cel­lent back-and-forth chat out­put. Non-instruct mod­els are still trained LLMs, but fo­cus on next-to­ken pre­dic­tion in­stead of chat­ting with a user. For our case, when us­ing a chat-based cod­ing tool (CLI or chat agent in your IDE) we need to use an in­struct model. If you’re set­ting up an au­to­com­plete model, you’ll want to find a model specif­i­cally post-trained for it (such as Qwen2.5-Coder-Base or DeepSeek-Coder-V2).You need a tool to serve your lo­cal LLM for your cod­ing tool to send it re­quests. On a MacBook, there are two pri­mary op­tions: MLX and Ollama.Ollama is the in­dus­try stan­dard and works on non-Mac hard­ware. It’s a great serv­ing setup on top of llama.cpp that makes model serv­ing al­most plug-and-play. Users can down­load model weights from Ollama eas­ily and can con­fig­ure mod­elfiles with cus­tom pa­ra­me­ters for serv­ing. Ollama can also serve a model once and make it avail­able to mul­ti­ple tools.MLX is a Mac-specific frame­work for ma­chine learn­ing that is op­ti­mized specif­i­cally for Mac hard­ware. It also re­trieves mod­els for the user from a com­mu­nity col­lec­tion. I’ve found Ollama to be very re­li­able in its model cat­a­log, while MLX’s cat­a­log is com­mu­nity sourced and can some­times be miss­ing spe­cific mod­els. Models are sourced from the com­mu­nity so a user can con­vert a model to MLX for­mat them­selves. MLX re­quires a bit more setup on the user’s end, but serves mod­els faster be­cause it does­n’t have a layer pro­vid­ing the niceties of Ollama on top of it.Ei­ther of these is great, but I chose MLX to max­i­mize what I can get with my RAM, but Ollama is prob­a­bly the more be­gin­ner-friendly tool here.Time-to-first-to­ken and to­kens per sec­ondIn real-world LLM ap­pli­ca­tions it’s im­por­tant that the model is able to serve its first to­ken for a re­quest in a rea­son­able amount of time and con­tinue serv­ing to­kens at a speed that en­ables the user to use the model for its given pur­pose. If we have a high-per­for­mance model run­ning lo­cally, but it only serves a few to­kens per sec­ond, it would­n’t be use­ful for cod­ing.This is some­thing taken for granted with cloud-hosted mod­els that is a real con­sid­er­a­tion when work­ing lo­cally on con­strained hard­ware. Another rea­son I chose MLX as my serv­ing plat­form is be­cause it served to­kens up to 20% faster than Ollama. In re­al­ity, Ollama served to­kens fast enough so I don’t think us­ing MLX is nec­es­sary specif­i­cally for this rea­son for the mod­els I tried.There are many ways to op­ti­mize lo­cal mod­els and save RAM. It’s dif­fi­cult to know which op­ti­miza­tion method works best and the im­pact each has on a model es­pe­cially when us­ing them in tan­dem with other meth­ods.The right op­ti­miza­tion method also de­pends on the ap­pli­ca­tion. In my ex­pe­ri­ence, I find it best to pri­or­i­tize larger mod­els with more ag­gres­sive model quan­ti­za­tion over smaller mod­els with more pre­cise model weights. Since our ap­pli­ca­tion is cod­ing, I would also pri­or­i­tize a less-quan­tized KV cache and us­ing a smaller model to en­sure rea­son­ing works prop­erly while not sac­ri­fic­ing the size of our con­text win­dow.There are many tools to code with lo­cal mod­els and I sug­gest try­ing un­til you find one you like. Some top rec­om­men­da­tions are OpenCode, Aider, Qwen Code, Roo Code, and Continue. Make sure to use a tool com­pat­i­ble with OpenAI’s API stan­dard. While this should be most tools, this en­sures a con­sis­tent model/​tool con­nec­tion. This makes it eas­ier to switch be­tween tools and mod­els as needed.I’ll spare you the trial and er­ror I ex­pe­ri­enced get­ting this set up. The one thing I learned is that tool­ing mat­ters a lot. Not all cod­ing tools are cre­ated equal and not all of the mod­els in­ter­act with tools equally. I ex­pe­ri­enced many times where tool call­ing or even run­ning a tool at all was bro­ken. I also had to tin­ker quite a bit with many of them to get them to work.If you’re a PC en­thu­si­ast, an apt com­par­i­son to set­ting up lo­cal cod­ing tools ver­sus us­ing the cloud of­fer­ings avail­able is the dif­fer­ence be­tween set­ting up a MacBook ver­sus a Linux Laptop. With the Linux lap­top, you might get well through the dis­tro in­stal­la­tion only to find that the dri­vers for your track­pad aren’t yet sup­ported. Sometimes it felt like that with lo­cal mod­els and hook­ing them to cod­ing tools.For my tool, I ended up go­ing with Qwen Code. It was pretty plug-and-play as it’s a fork of Gemini CLI. It sup­ports the OpenAI com­pat­i­bil­ity stan­dard so I can eas­ily sub in dif­fer­ent mod­els and af­fords me all of the niceties built into Gemini CLI that I’m fa­mil­iar with us­ing. I also know it’ll be sup­ported be­cause both the Qwen team and Google DeepMind are be­hind the tool. The tool is also open source so any­one can sup­port it as needed.For mod­els, I fo­cused on GPT-OSS and Qwen3 mod­els since they were around the size I was look­ing for and had great re­views for cod­ing. I ended up de­cid­ing to use Qwen3-Coder mod­els be­cause I found it per­formed best and be­cause GPT-OSS fre­quently gave me “I can­not ful­fill this re­quest” re­sponses when I asked it to build fea­tures.I de­cided to serve my lo­cal mod­els on MLX, but if you’re us­ing a non-Mac de­vice give Ollama a shot. A MacBook is an ex­cel­lent ma­chine for serv­ing lo­cal mod­els be­cause of its uni­fied mem­ory ar­chi­tec­ture. This means the RAM can be al­lot­ted to the CPU or GPU as needed. MacBooks can also be con­fig­ured with a ton of RAM. For serv­ing lo­cal cod­ing mod­els, more is al­ways bet­ter.I’ve shared my mod­elfiles repo for you to ref­er­ence and use as needed. I’ve got a script set up that au­to­mates much of the be­low process. Feel free to fork it and cre­ate your own mod­elfiles or star it to come back later.In­stall MLX or down­load Ollama (the rest of this guide will con­tinue with MLX but de­tails for serv­ing on Ollama can be found here).In­crease the VRAM lim­i­ta­tion on your MacBook. ma­cOS will au­to­mat­i­cally limit VRAM to 75% of the to­tal RAM. We want to use more than that. Run sudo sysctl iogpu.wired_lim­it_mb=110000 in your ter­mi­nal to set this up (adjust the mb set­ting ac­cord­ing to the RAM on your MacBook). This needs to be set each time you restart your MacBook.Serve the model as an OpenAI com­pat­i­ble API us­ing python -m mlx_lm.server –model mlx-com­mu­nity/​Qwen3-Next-80B-A3B-In­struct-8bit. This com­mand both runs the server and down­loads the model for you if you haven’t yet. This par­tic­u­lar model is what I’m us­ing with 128GB of RAM. If you have less RAM, check out smaller mod­els such as mlx-com­mu­nity/​Qwen3-4B-In­struct-2507-4bit (8 GB RAM), mlx-com­mu­nity/​Qwen2.5-14B-In­struct-4bit (16 GB RAM), mlx-com­mu­nity/​Qwen3-Coder-30B-A3B-In­struct-4bit (32 GB RAM), or mlx-com­mu­nity/​Qwen3-Next-80B-A3B-In­struct-4bit (64-96 GB RAM).Download Qwen Code. You might need to in­stall Node Package Manager for this. I rec­om­mend us­ing Node Version Manager (nvm) for man­ag­ing your npm ver­sion.Set up your tool to ac­cess an OpenAI com­pat­i­ble API by en­ter­ing the fol­low­ing set­tings:Base URL: http://​lo­cal­host:8080/​v1 (should be the de­fault MLX serves your model at)Model Name: mlx-com­mu­nity/​Qwen3-Next-80B-A3B-In­struct-8bit (or whichever model you chose).Voila! Your cod­ing model tool should be work­ing with your lo­cal cod­ing model.I rec­om­mend open­ing Activity Monitor on your Mac to mon­i­tor mem­ory us­age. I’ve had cases where I thought a model should fit within my mem­ory al­lot­ment but it did­n’t and I ended up us­ing a lot of swap mem­ory. When this hap­pens your model will run very slowly.One tip I have for us­ing lo­cal cod­ing mod­els: Focus on man­ag­ing your con­text. This is a great skill even with cloud-based mod­els. People tend to YOLO their chats and fill their con­text win­dow, but I’ve found greater per­for­mance by en­sur­ing that just what my model needs is sit­ting in my con­text win­dow. This is even more im­por­tant with lo­cal mod­els that may need an ex­tra boost in per­for­mance and are lim­ited in their con­text.My orig­i­nal hy­poth­e­sis was: Instead of pay­ing $100/mo+ for an AI cod­ing sub­scrip­tion, my money would be bet­ter spent up­grad­ing my hard­ware so I can run lo­cal cod­ing mod­els at a frac­tion of the price.I would ar­gue thatno [see edit 2 above], it is cor­rect. If we crunch the num­bers, a MacBook with 128 GB is $4700 plus tax. If I spend $100/mo for 5 years, a cod­ing sub­scrip­tion would cost $6000 in that same amount of time. Not only do I save money, but I also get a much more ca­pa­ble ma­chine for any­thing else I want to do with it.[This para­graph was added in af­ter ini­tial re­lease of this ar­ti­cle] It’s im­por­tant to note that lo­cal mod­els will not reach the peak per­for­mance of fron­tier mod­els; how­ever, they will likely be able to do most tasks just as well. The value of us­ing a lo­cal model does­n’t come from raw per­for­mance, but from sup­ple­ment­ing the cost of higher per­for­mance mod­els. A lo­cal model could very well let you drop your sub­scrip­tion tier for a fron­tier cod­ing tool or uti­lize a free tier as needed for bet­ter per­for­mance and run the rest of your tasks for free.It’s also im­por­tant to note that lo­cal mod­els are only go­ing to get bet­ter and smaller. This is the worst your lo­cal cod­ing model will per­form. I also would­n’t be sur­prised if cloud-based AI cod­ing tools get more ex­pen­sive. If you fig­ure you’re us­ing greater than the $100/mo tier right now or that the $100/mo tier will cost $200/mo in the fu­ture, the pur­chase is a no-brainer. It’s just dif­fi­cult to stom­ach the up­front cost.From a per­for­mance stand­point, I would say the max­i­mum model run­ning on my 128 GB RAM MacBook right now feels about half a gen­er­a­tion be­hind the fron­tier cod­ing tools. That’s ex­cel­lent, but some­thing to keep in mind as that half a gen­er­a­tion might mat­ter to you.One wrench thrown into my ex­per­i­ment is how much free quota Google hands out with their dif­fer­ent AI cod­ing tools. It’s easy to pur­chase ex­pen­sive hard­ware when it saves you money in the long run. It’s much more dif­fi­cult when the al­ter­na­tive is free.Ini­tially, I con­sid­ered my lo­cal cod­ing setup to be a great pair to Google’s free tier. It def­i­nitely per­forms bet­ter than Gemini 2.5 Flash and makes a great com­pan­ion to Gemini 3 Pro. Gemini 3 Pro can solve more com­plex tasks with the lo­cal model do­ing every­thing else. This not only saves quota on 3 Pro but also pro­vides a very ca­pa­ble fall­back for when quota is hit.How­ever, this is foiled a bit now that Gemini 3 Flash was just an­nounced a few days ago. It shows bench­mark num­bers much more ca­pa­ble than Gemini 2.5 Flash (and even 2.5 Pro!) and I’ve been very im­pressed with its per­for­mance. If that’s the free tier Google of­fers, it makes lo­cal cod­ing mod­els less fis­cally rea­son­able. The jury is still out on how well Gemini 3 Flash will per­form and how quota will be struc­tured, but we’ll have to see if lo­cal mod­els can keep up.I’m very cu­ri­ous to hear what you think! Tell me about your lo­cal cod­ing setup or ask any ques­tions be­low.

“Those who have a ‘Why’ to live, can bear with al­most any ‘How’.”

Your life is go­ing pretty darn well by any ob­jec­tive met­ric.

Nice place to live. More than enough stuff. Family and friends who love you.

But you’re tired, burnt out, and more.

It feels like you’re stuck in the or­di­nary when all you want to do is chase great­ness.

Viktor Frankl calls this feel­ing the “existential vac­uum” in his fa­mous book Man’s Search for Meaning. Frankl was a psy­chol­o­gist who sur­vived the Holocaust, and in this book he ex­plains that the in­mates who sur­vived with him found and fo­cused on a higher pur­pose in life, like car­ing for other in­mates and promis­ing to stay alive to re­con­nect with loved ones out­side the camps. But these sur­vivors also strug­gled in their new lives af­ter the war, des­per­ately search­ing for mean­ing when every de­ci­sion was no longer life or death.

Frankl re­al­ized that this ex­is­ten­tial anx­i­ety is not a nui­sance to elim­i­nate, but ac­tu­ally an im­por­tant sig­nal point­ing us to­wards our need for mean­ing. Similarly, while Friedrich Nietzsche would ar­gue that life in­her­ently lacks mean­ing, he’d also im­plore us to zoom out and find our high­est pur­pose now:

“This is the most ef­fec­tive way: to let the youth­ful soul look back on life with the ques­tion, ‘What have you up to now truly loved, what has drawn your soul up­ward, mas­tered it and blessed it too?’… for your true be­ing lies not deeply hid­den within you, but an in­fi­nite height above you, or at least above that which you com­monly take to be your­self.“

Nihilists get both Nietzsche and YOLO wrong. Neither mean that you give up. Instead, both mean that your ef­forts are every­thing.

So when you get those Sunday Scaries, the ex­is­ten­tial anx­i­ety that your time is end­ing and the rest of your life is spent work­ing for some­one else, the an­swer is­n’t es­capism.

Instead, vi­su­al­ize your ideal self, the truest child­hood dream of who you wanted to be when you grew up. What would that per­son be do­ing now? Go do that thing!

When fac­ing the ex­is­ten­tial vac­uum, there’s only one way out — up, to­wards your high­est pur­pose.

On a 0-10 scale, how happy did you feel when you started work­ing this Monday?

You got the great job. You built the startup. You took the va­ca­tions. But that’s not what you re­ally needed. You kept com­ing back Monday af­ter Monday re­al­iz­ing you were do­ing the same job again.

So you tried to im­prove your­self. You op­ti­mized your morn­ing rou­tine. You per­fected your pro­duc­tiv­ity sys­tem. You bought a sleep mask and mouth tape. Yet you’re still drag­ging your­self out of bed each Monday morn­ing tired and un­mo­ti­vated.

We’re op­ti­miz­ing for less suf­fer­ing in­stead of more mean­ing. We’ve con­fused com­fort with ful­fill­ment. And we’re get­ting re­ally, re­ally good at it. Millennials are the first gen­er­a­tion in his­tory to ex­pect our jobs to pro­vide a higher mean­ing be­yond sur­vival. That’s a good thing. It means that the es­sen­tials of life are nearly uni­ver­sally avail­able now.

But, as I write in my book Positive Politics:

“The last two hun­dred years of progress pulled most of the world’s pop­u­la­tion over the poverty line. The next hun­dred years is about lift­ing every­one above the abun­dance line… Positive Politics seeks to de­moc­ra­tize this abun­dance.“

Those of us who have al­ready achieved abun­dance in our own lives now have two re­spon­si­bil­i­ties:

Spread that abun­dance to as many other peo­ple as pos­si­ble.

Find some­thing more mean­ing­ful to do than chase more stuff.

The ex­is­ten­tial vac­uum is a wide­spread phe­nom­e­non of the twen­ti­eth cen­tury

When I was a kid, I knew ex­actly what I wanted to do — the most im­por­tant job in the world. And I was­n’t afraid to tell you ei­ther. At five years old, I would talk your ear off about train­ing to be goalie for the St. Louis Blues. By seven, it was as­tro­naut for NASA. By eleven, it was President of the United States. Then mid­dle school hit, I got made fun of more than a few times, and that voice went silent.

After three star­tups, three non­prof­its, and es­pe­cially three kids knocked the im­poster syn­drome out of me, I spent a lot of time train­ing my in­ner voice to get loud again. And what I heard re­in­forced what I knew all along — that my high­est pur­pose is way above where I com­monly take my­self now.

Imposter syn­drome can be a good thing. That ex­ter­nal voice say­ing “this is not you” may ac­tu­ally be telling you the truth. I got into the test­ing lab in­dus­try to save our fam­ily busi­ness. Fifteen years and three star­tups later, I had be­come “the lab ex­pert” to the world. But I cringed at that la­bel. First, there was no room to grow. I had al­ready done it. I did­n’t want to be eighty and still run­ning labs. Second, and most im­por­tantly, I knew that my skills could be used for much more than money.

I’d love to say I trans­formed overnight, but re­ally it took 5+ years from 2020 to 2025 for me to fully em­body my new iden­tity. You can see it in my writ­ing, which be­came much more am­bi­tious in 2020, when I re­launched this site and started blog­ging con­sis­tently. That led to my World’s Biggest Problems pro­ject, which con­vinced me that Positive Politics is the #1 so­lu­tion we need now!

There are two key com­po­nents to my high­est mis­sion now:

Be a model for the pur­suit of great­ness.

That means con­sis­tently chas­ing my high­est pur­pose — helping am­bi­tious op­ti­mists get into pol­i­tics! After nearly a decade of do­ing this be­hind the scenes as a po­lit­i­cal vol­un­teer and ad­vi­sor, 2025 was the first year where I went full-time in pol­i­tics. Leading MCFN and pub­lish­ing Positive Politics at the same time was a ton of work. But noth­ing en­er­gizes me more than fight­ing two of the biggest bat­tles in the world now — an­ti­cor­rup­tion and Positive Politics!

I love pol­i­tics be­cause it’s full of meta so­lu­tions — solutions that cre­ate more so­lu­tions. My Positive Politics Accelerator is a clas­sic ex­am­ple — recruiting and train­ing more am­bi­tious op­ti­mists into pol­i­tics will lead to them mak­ing pos­i­tive po­lit­i­cal change at all lev­els of gov­ern­ment. But I’ve also tack­led chal­lenges like in­de­pen­dent test­ing with star­tups and led a non­profit to drive in­ves­tiga­tive jour­nal­ism.

There are so many paths to pos­i­tive im­pact, in­clud­ing pol­i­tics, star­tups, non­prof­its, med­i­cine, law, ed­u­ca­tion, sci­ence, en­gi­neer­ing, jour­nal­ism, art, faith, par­ent­ing, men­tor­ship, and more! Choose the path that both best fits you now and is pointed to­wards your long-term high­est pur­pose.

I woke up to­day so ex­cited to get to work think­ing it was Monday morn­ing al­ready. Instead of jump­ing right into it, I spent all morn­ing mak­ing break­fast and play­ing with my kids, then wrote this post. When I’m writ­ing about some­thing per­sonal, 1,000+ words can eas­ily flow for me in an af­ter­noon. This part will be done just in time to go to a nerf bat­tle birth­day party with my boys and their friends.

Both the hus­tle and anti-hus­tle cul­tures get it wrong. Working long hours is­n’t in­her­ently good or bad. If I re­ally had to count how much I’m “on” vs. do­ing what­ever I want, it’s easy 100+ hours per week. But that in­cludes every­thing from in­ves­tiga­tive jour­nal­ism and op­er­a­tions work for MCFN, so­cial me­dia and speak­ing events for Positive Politics, read­ing and writ­ing for my site, and 40+ hours every week with my kids.

I want to help more am­bi­tious op­ti­mists chase your high­est po­ten­tial! Whether the best so­lu­tion is in star­tups, pol­i­tics, non­prof­its, sci­ence, crypto, or some new tech­nol­ogy that’s yet to be in­vented, I’m happy to point you where I think you’ll be most pow­er­ful. I’ve thought, writ­ten, and worked on many of these ideas in my 15+ year ca­reer.

Now with 10+ years of writ­ing, I’ve fo­cused on pub­licly in­spir­ing more peo­ple to take on these chal­lenges too. We should be flex­i­ble on how we solve the prob­lems but firm in our re­solve to con­sis­tently or­ga­nize peo­ple and launch so­lu­tions.

As Steve Jobs said, “Life can be much broader once you dis­cover one sim­ple fact, and that is every­thing around you that you call ‘life’ was made up by peo­ple that were no smarter than you… You can change it, you can mold it… the most im­por­tant thing…is to shake off this er­ro­neous no­tion that life is there and you’re just go­ing to live in it, ver­sus em­brace it, change it, im­prove it, make your mark upon it… Once you learn that, you’ll never be the same again.”

Remember how it felt as a young child to openly tell the world about your dream job? Find the work that makes you feel this way and jump on what­ever rung of that ca­reer lad­der you can start now. The pay may be a lit­tle lower, but the ex­is­ten­tial pay­off will be ex­po­nen­tially higher for the rest of your life.

You don’t have to go all-in right away! In fact, af­ter a long diet of low ex­is­ten­tial work, it’s prob­a­bly best to ease into pub­lic work. You can even vol­un­teer one hour or less per week for a po­lit­i­cal cam­paign or non­profit to get started. Pick the small­est first step, and do it. Not in January, now. Do it be­fore the end of the year. And see how dif­fer­ent you feel when 2026 starts!

And you don’t have to choose pol­i­tics like me! Do you have the next great am­bi­tious op­ti­mistic sci­ence fic­tion novel in your head? That book could spark movies and move­ments that pos­i­tively change mil­lions of lives! Choose the path will in­spire and en­er­gize you for decades!

What mat­ters most is you go straight to­wards your high­est po­ten­tial right now. Pause once a month to make sure you’re still on the right track. Stop once a year to triple-check you’re on the right track. But never get off this path to­wards your high­est po­ten­tial. Anything else will starve you ex­is­ten­tially.

When you truly chase your high­est po­ten­tial, every­thing you thought was burnout will melt away. Because you weren’t suf­fer­ing from too much work, you were suf­fer­ing from too lit­tle truly im­por­tant work. Like a boy who thought he was full un­til dessert ar­rives, you’ll sud­denly find your hunger re­turn!

If you’re sick of pol­i­tics as usual and ready to change the sys­tem, join Positive Politics!

Summary: We pro­pose mea­sur­ing AI per­for­mance in terms of the length of tasks AI agents can com­plete. We show that this met­ric has been con­sis­tently ex­po­nen­tially in­creas­ing over the past 6 years, with a dou­bling time of around 7 months. Extrapolating this trend pre­dicts that, in un­der a decade, we will see AI agents that can in­de­pen­dently com­plete a large frac­tion of soft­ware tasks that cur­rently take hu­mans days or weeks.

We think that fore­cast­ing the ca­pa­bil­i­ties of fu­ture AI sys­tems is im­por­tant for un­der­stand­ing and prepar­ing for the im­pact of pow­er­ful AI. But pre­dict­ing ca­pa­bil­ity trends is hard, and even un­der­stand­ing the abil­i­ties of to­day’s mod­els can be con­fus­ing.

Current fron­tier AIs are vastly bet­ter than hu­mans at text pre­dic­tion and knowl­edge tasks. They out­per­form ex­perts on most exam-style prob­lems for a frac­tion of the cost. With some task-spe­cific adap­ta­tion, they can also serve as use­ful tools in many ap­pli­ca­tions. And yet the best AI agents are not cur­rently able to carry out sub­stan­tive pro­jects by them­selves or di­rectly sub­sti­tute for hu­man la­bor. They are un­able to re­li­ably han­dle even rel­a­tively low-skill, com­puter-based work like re­mote ex­ec­u­tive as­sis­tance. It is clear that ca­pa­bil­i­ties are in­creas­ing very rapidly in some sense, but it is un­clear how this cor­re­sponds to real-world im­pact.

We find that mea­sur­ing the length of tasks that mod­els can com­plete is a help­ful lens for un­der­stand­ing cur­rent AI ca­pa­bil­i­ties. This makes sense: AI agents of­ten seem to strug­gle with string­ing to­gether longer se­quences of ac­tions more than they lack skills or knowl­edge needed to solve sin­gle steps.

On a di­verse set of multi-step soft­ware and rea­son­ing tasks, we record the time needed to com­plete the task for hu­mans with ap­pro­pri­ate ex­per­tise. We find that the time taken by hu­man ex­perts is strongly pre­dic­tive of model suc­cess on a given task: cur­rent mod­els have al­most 100% suc­cess rate on tasks tak­ing hu­mans less than 4 min­utes, but suc­ceed

For each model, we can fit a lo­gis­tic curve to pre­dict model suc­cess prob­a­bil­ity us­ing hu­man task length. After fix­ing a suc­cess prob­a­bil­ity, we can then con­vert each mod­el’s pre­dicted suc­cess curve into a time du­ra­tion, by look­ing at the length of task where the pre­dicted suc­cess curve in­ter­sects with that prob­a­bil­ity. For ex­am­ple, here are fit­ted suc­cess curves for sev­eral mod­els, as well as the lengths of tasks where we pre­dict a 50% suc­cess rate:

We think these re­sults help re­solve the ap­par­ent con­tra­dic­tion be­tween su­per­hu­man per­for­mance on many bench­marks and the com­mon em­pir­i­cal ob­ser­va­tions that mod­els do not seem to be ro­bustly help­ful in au­tomat­ing parts of peo­ple’s day-to-day work: the best cur­rent mod­els—such as Claude 3.7 Sonnet—are ca­pa­ble of some tasks that take even ex­pert hu­mans hours, but can only re­li­ably com­plete tasks of up to a few min­utes long.

That be­ing said, by look­ing at his­tor­i­cal data, we see that the length of tasks that state-of-the-art mod­els can com­plete (with 50% prob­a­bil­ity) has in­creased dra­mat­i­cally over the last 6 years.

If we plot this on a log­a­rith­mic scale, we can see that the length of tasks mod­els can com­plete is well pre­dicted by an ex­po­nen­tial trend, with a dou­bling time of around 7 months.

Our es­ti­mate of the length of tasks that an agent can com­plete de­pends on method­olog­i­cal choices like the tasks used and the hu­mans whose per­for­mance is mea­sured. However, we’re fairly con­fi­dent that the over­all trend is roughly cor­rect, at around 1-4 dou­blings per year. If the mea­sured trend from the past 6 years con­tin­ues for 2-4 more years, gen­er­al­ist au­tonomous agents will be ca­pa­ble of per­form­ing a wide range of week-long tasks.

The steep­ness of the trend means that our fore­casts about when dif­fer­ent ca­pa­bil­i­ties will ar­rive are rel­a­tively ro­bust even to large er­rors in mea­sure­ment or in the com­par­isons be­tween mod­els and hu­mans. For ex­am­ple, if the ab­solute mea­sure­ments are off by a fac­tor of 10x, that only changes the ar­rival time by around 2 years.

We dis­cuss the lim­i­ta­tions of our re­sults, and de­tail var­i­ous ro­bust­ness checks and sen­si­tiv­ity analy­ses in the full pa­per. Briefly, we show that sim­i­lar trends hold (albeit more nois­ily) on:

Various sub­sets of our tasks that might rep­re­sent dif­fer­ent dis­tri­b­u­tions (very short soft­ware tasks vs the di­verse HCAST vs RE-Bench, and sub­sets fil­tered by length or qual­i­ta­tive as­sess­ments of “messiness”).

A sep­a­rate dataset based on real tasks (SWE-Bench Verified), with in­de­pen­dently col­lected hu­man time data based on es­ti­mates rather than base­lines. This shows an even faster dou­bling time, of un­der 3 months.

We also show in the pa­per that our re­sults do not ap­pear to be es­pe­cially sen­si­tive to which tasks or mod­els we in­clude, nor to any other method­olog­i­cal choices or sources of noise that we in­ves­ti­gated:

However, there re­mains the pos­si­bil­ity of sub­stan­tial model er­ror. For ex­am­ple, there are rea­sons to think that re­cent trends in AI are more pre­dic­tive of fu­ture per­for­mance than pre-2024 trends. As shown above, when we fit a sim­i­lar trend to just the 2024 and 2025 data, this short­ens the es­ti­mate of when AI can com­plete month-long tasks with 50% re­li­a­bil­ity by about 2.5 years.

We be­lieve this work has im­por­tant im­pli­ca­tions for AI bench­marks, fore­casts, and risk man­age­ment.

First, our work demon­strates an ap­proach to mak­ing bench­marks more use­ful for fore­cast­ing: mea­sur­ing AI per­for­mance in terms of the length of tasks the sys­tem can com­plete (as mea­sured by how long the tasks take hu­mans). This al­lows us to mea­sure how mod­els have im­proved over a wide range of ca­pa­bil­ity lev­els and di­verse do­mains. At the same time, the di­rect re­la­tion­ship to real-world out­comes per­mits a mean­ing­ful in­ter­pre­ta­tion of ab­solute per­for­mance, not just rel­a­tive per­for­mance.

Second, we find a fairly ro­bust ex­po­nen­tial trend over years of AI progress on a met­ric which mat­ters for real-world im­pact. If the trend of the past 6 years con­tin­ues to the end of this decade, fron­tier AI sys­tems will be ca­pa­ble of au­tonomously car­ry­ing out month-long pro­jects. This would come with enor­mous stakes, both in terms of po­ten­tial ben­e­fits and po­ten­tial risks.

We’re very ex­cited to see oth­ers build on this work and push the un­der­ly­ing ideas for­ward, just as this re­search builds on prior work on eval­u­at­ing AI agents. As such, we have open sourced our in­fra­struc­ture, data and analy­sis code. As men­tioned above, this di­rec­tion could be highly rel­e­vant to the de­sign of fu­ture eval­u­a­tions, so repli­ca­tions or ex­ten­sions would be highly in­for­ma­tive for fore­cast­ing the real-world im­pacts of AI.

In ad­di­tion, METR is hir­ing! This pro­ject in­volved most staff at METR in some way, and we’re cur­rently work­ing on sev­eral other pro­jects we find sim­i­larly ex­cit­ing. If you or some­one that you know would be a good fit for this kind of work, please see the listed roles.