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ATC/OSDI’25 Technical Sessions

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ATC and OSDI ran in parallel. As is tradition, OSDI was single-track ; ATC had two parallel tracks . The schedules and papers are online as linked above. USENIX is awesome: it has been open access for its conference proceedings since 2008. So you can access all the paper pdfs through the links above now. I believe the presentation videos will be made available soon as well. Kudos to USENIX! I attended the OSDI opening remarks delivered by the PC chairs, Lidong Zhou (Microsoft) and Yuan Yuan Zhou (UCSD). OSDI saw 339 submissions this year, which is up 20% from last year. Of those, 53 were accepted, for an acceptance rate of 16%. The TPC worked through Christmas to keep the publication machine running. We really are a bunch of workaholics. Who needs family time when you have rebuttals to respond to? OSDI gave two best paper awards: Basilisk: Using Provenance Invariants to Automate Proofs of Undecidable Protocols. Tony Nuda Zhang and Keshav Singh, University of Michigan; Tej Chajed, Unive...
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ATC/OSDI 2025 impressions

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This week I was in Boston for ATC/OSDI’25. Downtown Boston is a unique place where two/three-hundred-year-old homes and cobblestone streets are mixed with sleek buildings and biotech towers. The people here look wicked smart and ambitious (although lacking the optimism/cheer of Bay area people). It’s a sharp contrast from Buffalo, where the ambition is more about not standing out. Boston was burning. 90°F and humid. I made the mistake of booking late, so I got the DoubleTree Boston-Downtown instead of the conference hotel. The mile-long walk to the Sheraton felt like a hike through a sauna. By the time I got there, my undershirt was soaked, and stuck to my back cold under the conference hall’s AC.  Jane Street's fitted t-shirt swag saved the day. The Sheraton looked ragged from the outside, aged on the inside, but it was functional. The conference felt underfilled, with many empty seats. Later, I learned that the total ATC+OSDI attendance was under 500. That's a big drop from e...
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Chapter 7: Distributed Recovery (Concurrency Control Book)

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Chapter 7 of the Concurrency Control and Recovery in Database Systems book by Bernstein and Hadzilacos (1987) tackles the distributed commit problem: ensuring atomic commit across a set of distributed sites that may fail independently. The chapter covers these concepts: The challenges of transaction processing in distributed database systems (which wasn't around in 1987) Failure models (site and communication) and timeout-based detection The definition and guarantees of Atomic Commitment Protocols (ACPs) The Two-Phase Commit (2PC) protocol (and its cooperative termination variant) The limitations of 2PC (especially blocking) Introduction and advantages of the Three-Phase Commit (3PC) protocol Despite its rigor and methodical development, the chapter feels like a suspense movie today. We, the readers, equipped with modern tools like FLP impossibility result and Paxos protocol watch as the authors try to navigate a minefield, unaware of the lurking impossibility results that were pu...
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Analyzing Metastable Failures in Distributed Systems

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So it goes: your system is purring like a tiger, devouring requests, until, without warning, it slumps into existential dread. Not a crash. Not a bang. A quiet, self-sustaining collapse. The system doesn’t stop. It just refuses to get better. Metastable failure is what happens when the feedback loops in the system go feral. Retries pile up, queues overflow, recovery stalls. Everything runs but nothing improves. The system is busy and useless. In an earlier post, I reviewed the excellent OSDI ’22 paper on metastable failures , which dissected real-world incidents and laid the theoretical groundwork. If you haven’t read that one, start there. This HotOS ’25 paper picks up the thread. It introduces tooling and a simulation framework to help engineers identify potential metastable failure modes before disaster strikes. It’s early stage work. A short paper. But a promising start. Let’s walk through it. Introduction Like most great tragedies, metastable failure doesn't begin with villain...
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Chapter 6: Centralized Recovery (Concurrency Control Book)

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With Chapter 6, the Concurrency Control and Recovery in Database Systems book shifts focus from concurrency control to the recovery! This chapter addresses how to preserve the atomicity and durability of transactions in the presence of failures, and how to restore the system to a consistent state afterward. The book offers a remarkably complete foundation for transactional recovery, covering undo/redo logging, checkpointing, and crash recovery. While it doesn't use the phrase "write-ahead logging", the basic concepts are there, including log-before-data and dual-pass recovery. When the book was written, the full WAL abstraction in ARIES was still to come in another five years at 1992 ( see my review here ). I revisit this discussion/comparison at the end of the post. System Model and Architecture In earlier chapters, we had reviewed the architecture: transactions pass through a transaction manager (TM), which sends operations to a scheduler and then to a data manager (DM...
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Chapter 5: Multiversion Concurrency Control (Concurrency Control Book)

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Chapter 5 of Concurrency Control and Recovery in Database Systems (1987) introduces multiversion concurrency control (MVCC), a fundamental advance over single-version techniques. Instead of overwriting data, each write operation creates a new version of the data item. Readers can access older committed versions without blocking concurrent writes or being blocked by concurrent writes. MVCC removes read-write conflicts and increases concurrency significantly. Having multiple versions around gives the scheduler flexibility: if a read arrives "too late" to see the latest write, it can still proceed by accessing an older version. This avoids unnecessary aborts. Writes may still abort due to write-write conflicts, but reads are largely unimpeded. This is especially beneficial in read-heavy workloads. This chapter presents three broad classes of multiversion methods: Multiversion Timestamp Ordering (MVTO), Multiversion Two-Phase Locking (MV2PL), and Multiversion Mixed Methods. For ...
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Chapter 4: Non-Locking Schedulers (Concurrency Control Book)

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Chapter 4 of the Concurrency Control and Recovery in Database Systems book (1987) opens with a sentence that doesn't quite pass the grammar test: "In this chapter we will examine two scheduling techniques that do not use locks, timestamp ordering (TO) and serialization graph testing (SGT)."  That comma is trying to do the job of a colon and failing at it. Precision matters, more so in technical writing. The writing is otherwise clear and careful. And as par the book, it is ahead of its time. The chapter presents a spectrum of non-locking schedulers, starting from Basic TO, expanding into certifiers (which basically stands for optimistic concurrency control), and ending with modular, composable scheduler designs that separate synchronization concerns cleanly between read-write and write-write synchronization.  Let's dig into the details. Timestamp Ordering (TO) Timestamp Ordering (TO) uses transaction start timestamps to impose a serial order on conflicting operations...
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Chapter 3: Two Phase Locking (Concurrency Control Book)

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Chapter 3 presents two-phase locking (2PL). Remember I told you in Chapter 2: Serializability Theory that the discussion is very scheduler-centric? Well, this is a deeper dive into the scheduler, using 2PL as the concurrency control mechanism. The chapter examines the design trade-offs in scheduler behavior, proves the correctness of basic 2PL, dissects how deadlocks arise and are handled, and discusses many variations and implementation issues. Here are the section headings in Chapter 3. Aggressive and Conservative Schedulers Basic Two Phase Locking Correctness of Basic Two Phase Locking Deadlocks Variations of Two Phase Locking Implementation Issues The Phantom Problem Locking Additional Operators Multigranularity Locking Distributed Two Phase Locking Distributed Deadlocks Locking Performance Tree Locking Yep, this is a long chapter: 65 pages.  3.1 Aggressive and Conservative Schedulers The chapter opens by asking: how aggressive or conservative should a scheduler be? An aggress...
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Chapter 2: Serializability Theory (Concurrency Control Book)

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Chapter 2 of Concurrency Control and Recovery in Database Systems (1987) by Bernstein, Hadzilacos, and Goodman is a foundational treatment of serializability theory. It is precise, formal, yet simple and elegant, a rare combination for foundational theory in a systems domain. Databases got lucky here: serializability theory is both powerful and clean. The chapter builds up the theory step by step, introducing: Histories Serializable histories The Serializability Theorem Recoverability and its variants Generalized operations beyond reads/writes View equivalence Each section motivates definitions clearly, presents tight formalism, and illustrates ideas with well-chosen examples. 2.1 Histories This section lays the groundwork. It starts slow, and doesn't do anything fancy. It first defines what it means for the operations within a transaction to form a well-founded partial order. This intra-transaction ordering extends naturally to inter-transaction operations, forming a superset rel...
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Popular posts from this blog

Hints for Distributed Systems Design

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This is with apologies to Butler Lampson, who published the " Hints for computer system design " paper 40 years ago in SOSP'83. I don't claim to match that work of course. I just thought I could draft this post to organize my thinking about designing distributed systems and get feedback from others. I start with the same  disclaimer Lampson gave. These hints are not novel, not foolproof recipes, not laws of design, not precisely formulated, and not always appropriate. They are just hints.  They are context dependent, and some of them may be controversial. That being said, I have seen these hints successfully applied in distributed systems design throughout my 25 years in the field, starting from the theory of distributed systems (98-01), immersing into the practice of wireless sensor networks (01-11), and working on cloud computing systems both in the academia and industry ever since. These heuristic principles have been applied knowingly or unknowingly and has proven...
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My Time at MIT

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Twenty years ago, in 2004-2005, I spent a year at MIT’s Computer Science department as a postdoc working with Professor Nancy Lynch. It was an extraordinary experience. Life at MIT felt like paradise, and leaving felt like being cast out. MIT Culture MIT’s Stata Center was the best CS building in the world at the time. Designed by Frank Gehry, it was a striking abstract architecture masterpiece ( although like all abstractions it was a bit leaky ). Furniture from Herman Miller complemented this design. I remember seeing price tags of $400 on simple yellow chairs. The building buzzed with activity.  Every two weeks, postdocs were invited to the faculty lunch on Thursdays, and alternating weeks we had group lunches. Free food seemed to materialize somewhere in the building almost daily, and the food trucks outside were also good. MIT thrived on constant research discussions, collaborations, and talks. Research talks were advertised on posters at the urinals, as a practical touch of M...
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Making database systems usable

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C. J. Date's Sigmod 1983 keynote, "Database Usability", was prescient. Usability is the most important thing to the customers. They care less about impressive benchmarks or clever algorithms, and more about whether they can operate and use a database efficiently to query, update, analyze, and persist their data with minimal headache. (BTW, does anyone have a link to the contents of this Sigmod'83 talk? There is no transcript around, except for this short abstract .) The paper we cover today is from Sigmod 2007. It takes on the database usability problem raised in that 1983 keynote head-on, and calls out that the king is still naked.  Let's give some context for the year 2007. Yes, XML format was still popular then. The use-case in the paper is XQuery. The paper does not contain any  reference to json. MongoDB would be released in 2009 with the document model; and that seems to be great timing for some of the usability pains mentioned in the paper! Web 2.0 was in ...
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Looming Liability Machines (LLMs)

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As part of our zoom reading group ( wow, 4.5 years old now ), we discussed a paper that uses LLMs for automatic root cause analysis (RCA) for cloud incidents. This was a pretty straightforward application of LLMs. The proposed system employs an LLM to match incoming incidents to incident handlers based on their alert types, predicts the incident's root cause category, and provides an explanatory narrative. The only customization is through prompt-engineering. Since this is a custom domain, I think a more principled and custom-designed  machine learning system would be more appropriate rather than adopting LLMs. Anyways, the use of LLMs for RCAs spooked me vicerally. I couldn't find the exact words during the paper discussion, but I can articulate this better now. Let me explain. RCA is serious business Root cause analysis (RCA) is the process of identifying the underlying causes of a problem/incident, rather than just addressing its symptoms. One RCA heuristic is asking 5 Why...
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Advice to the young

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I notice I haven't written any advice posts recently. Here is a collection of my advice posts pre 2020. I've been feeling all this elderly wisdom pent up in me, ready to pour at any moment. So here it goes. Get ready to quench your thirst from my fount of wisdom. No man, think for yourself, only get what works for you. It is called foundations, not theory Foundations of computer science (or rather any field of study) are the most important topics you can learn. These lay down the frame of thinking/perspective for that area of study. Yet, I am saddened to hear these called as "theory", and labeled as "unpractical". This couldn't be farther from the truth. Take a look at how I recommend studying distributed systems . Don't you dare call this "theory" and "unpractical". This lays the bedrock that you build your practice on. Don't skimp on the foundations. Don't build your home on quicksand. Keep your hands dirty, your mind cl...
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Learning about distributed systems: where to start?

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This is definitely not a "learn distributed systems in 21 days" post. I recommend a principled, from the foundations-up, studying of distributed systems, which will take a good three months in the first pass, and many more months to build competence after that. If you are practical and coding oriented you may not like my advice much. You may object saying, "Shouldn't I learn distributed systems with coding and hands on? Why can I not get started by deploying a Hadoop cluster, or studying the Raft code." I think that is the wrong way to go about learning distributed systems, because seeing similar code and programming language constructs will make you think this is familiar territory, and will give you a false sense of security. But, nothing can be further from the truth. Distributed systems need radically different software than centralized systems do.  --A. Tannenbaum This quotation is literally the first sentence in my distributed systems syllabus. Inst...
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Scalable OLTP in the Cloud: What’s the BIG DEAL?

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This paper is from Pat Helland, the apostate philosopher of database systems, overall a superb person, and a good friend of mine. The paper appeared this week at CIDR'24. (Check out the program for other interesting papers). The motivating question behind this work is: " What are the asymptotic limits to scale for cloud OLTP (OnLine Transaction Processing) systems? " Pat says that the CIDR 2023 paper "Is Scalable OLTP in the Cloud a Solved Problem?" prompted this question.  The answer to the question? Pat says that the answer lies in the joint responsibility of database and the application. If you know of Pat's work, which I have summarized several in this blog , you would know that Pat has been advocating along these lines before. But this paper provides a very crisp, specific, concrete answer. Read on for my summary of the paper. Disclaimer: This is a wisdom and technical information/detail packed 13-page paper, so I will try my best to summarize the sa...
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Foundational distributed systems papers

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I talked about the importance of reading foundational papers last week. To followup, here is my compilation of foundational papers in the distributed systems area. (I focused on the core distributed systems area, and did not cover networking, security, distributed ledgers, verification work etc. I even left out distributed transactions, I hope to cover them at a later date.)  I classified the papers by subject, and listed them in chronological order. I also listed expository papers and blog posts at the end of each section. Time and State in Distributed Systems Time, Clocks, and the Ordering of Events in a Distributed System. Leslie Lamport, Commn. of the ACM,  1978. Distributed Snapshots: Determining Global States of a Distributed System. K. Mani Chandy Leslie Lamport, ACM Transactions on Computer Systems, 1985. Virtual Time and Global States of Distributed Systems.  Mattern, F. 1988. Practical uses of synchronized clocks in distributed systems. B. Liskov, 1991. Exp...
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Distributed Transactions at Scale in Amazon DynamoDB

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This paper appeared in July at USENIX ATC 2023. If you haven't read about the architecture and operation of DynamoDB, please first read my summary of the DynamoDB ATC 2022 paper . The big omission in that paper was discussion about transactions. This paper amends that. It is great to see DynamoDB, and AWS in general, is publishing/sharing more widely than before. Overview A killer feature of DynamoDB is predictability at any scale. Do read Marc Brooker's post to fully appreciate this feature. Aligned with this predictability tenet, when adding transactions to DynamoDB, the first and primary constraint was to preserve the predictable high performance of single-key reads/writes at any scale. The second big constraint was to implement transactions using update in-place operation without multi-version concurrency control. The reason for this was they didn't want to mock with the storage layer which did not support multi-versioning. Satisfying both of the above constraints may s...
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Linearizability: A Correctness Condition for Concurrent Objects

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This paper is from Herlihy and Wing appeared in ACM Transactions on Programming Languages and Systems 1990. This is the canonical reference for the linearizability definition. I had not read this paper in detail before, so I thought it would be good to go to the source to see if there are additional delightful surprises in the original text. Hence, this post. I will dive into a technical analysis of the paper first, and then discuss some of my takes toward the end. I had written an accessible explanation of linearizability earlier; you may want to read that first. I will assume an understanding of linearizability to keep this review at reasonable length. Introduction I love how the old papers just barge in with the model, without bothered by pleasantries such as motivation of the problem. These are the first two sentences of the introduction. "A concurrent system consists of a collection of sequential processes that communicate through shared typed objects . This model encompass...
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