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HopsFS: 100x Times Faster Than AWS S3(logicalclocks.com)

208 pointsnathaliaariza posted 11 days ago138 Comments
tutfbhuf said 9 days ago:

High-availability durable filesystem is a difficult problem to solve. It usually starts with NFS, which is a big huge single point of failure. Depending on the nature of the application this might be good enough.

But if it's not, you'll typically want cross-datacenter replication so if one rack goes down you don't lose all your data. So then you're looking at something like Glusterfs/MooseFS/Ceph. But the latencies involved with synchronously replicating to multiple datacenters can really kill your performance. For example, try git cloning a large project onto a Glusterfs mount with >20ms ping between nodes. It's brutal.

Other products try to do asynchronous replication, EdgeFS is one I was looking at recently. This follows the general industry trend, like it or not, of "eventually consistent is consistent enough". Not much better than a cron job + rsync, in my opinion, but for some workloads it's good enough. If there's a partition you'll lose data.

Eventually you just give up and realize that a perfectly synchronized geographically distributed POSIX filesystem is a pipe dream, you bite the bullet and re-write your app against S3 and call it a day.

geertj said 9 days ago:

> It usually starts with NFS, which is a big huge single point of failure.

NFS is just the protocol. Whether it's a single point of failure depends on the server-side implementation. In Amazon EFS it is not.

(disclaimer: I'm a PM-T on the EFS team)

ryanmarsh said 9 days ago:

Hi, my use case for EFS Lambda is burts of small writes. Could you add a perf mode that favors bursts of small writes? We did some perf tests and just couldn’t make it fast enough.

jamesblonde said 8 days ago:

What's a small write in your use case? How many KBs is the write op, and how many ops/sec?

We can store small files on NVMe disks in metadata, so that you can read them with a latency of just a couple of ms, and can scale to 10s of thousands of concurrent reads/writes per second with small files.


tw04 said 9 days ago:


You could try NetApp - it's significantly faster than EFS in my experience.

SteveNuts said 8 days ago:

This solution is at least 40k per year for just the disk controllers, so be prepared for that.

tw04 said 8 days ago:

First off we're talking about AWS, not on-premises. Second, if we were talking on-premises, you can get into a NetApp controller for FAR less than $40k a year, but that's not really relevant to OP.

There are two options in AWS: one where you get an entire virtual storage system to yourself but also need to have some NetApp expertise (although less than on-premises). You can find pricing here:


And one where you just consume the NFS/SMB shares more akin to EFS (pricing at the bottom of the page):


In both instances you can get better pricing than what is on that page by working with a partner, but if you don't want to you can buy directly through AWS and pay a slight premium.

scoot said 8 days ago:

$100/TB/mo for the cloud version.


Depending on the use-case, Veritas InfoScale might be a better option. It can aggregate different tiers of storage, and present a multi-node shared-nothing file-system, with options for replication between AZs, regions, or different cloud providers.

Priced by core not capacity.


Proven said 8 days ago:

The small 24 drive all flash model (dual controller) is around $20k, based on a quick google search

geertj said 8 days ago:

Hi, feel free to reach out with some details on your use case at gerardu at amazon.

redis_mlc said 8 days ago:

Everything is throttled in AWS because of people like you, so the answer is no.

the8472 said 9 days ago:

> For example, try git cloning a large project onto a Glusterfs mount with >20ms ping between nodes. It's brutal.

That may be true but also is due to applications often having very sequential IO patterns even when they don't need to be.

I hope we'll get some convenience wrappers around io_uring that make batching of many small IO calls in a synchronous manner simple and easy for cases where you don't want to deal with async runtimes. E.g. bulk_statx() or fsync_many() would be prime candidates for batching.

fxtentacle said 8 days ago:

> write your app against S3 and call it a day.

... and then later you notice that you need a special SLA and Amazon Redshift to guarantee that a read from S3 will return the same value as the last write.

Even S3 is only eventually consistent and especially if a US user uploads images into your US bucket and then you serve the URLs to EU users, you might have loading problems. The correct solution, according to our support contact, is that we wait a second after uploading to S3 to make sure at least the metadata has replicated to the EU before we post the image url. That, or pay for Redshift to tell us how long to wait more precisely.

Because contrary to what everyone expects, S3 requests to US buckets might be served by delayed replicas in other countries if the request comes from outside the US.

Galanwe said 8 days ago:

> The correct solution, according to our support contact, is that we wait a second after uploading to S3

I'm shocked that you got this answer. This is definitely not how you are supposed to operate.

If you need to ensure the sequantiality of a write followed by a read on S3, the idiomatic way is to enable versioning on your bucket, issue a write, and provide the version ID to whoever need to read after that write.

Not only will that transparently ensure that you will not read deprecated data, but it will even ensure that you actually read the result of that particular write, and not any consecutive write that could have happened in between.

This pattern is very easy to implement for sequential operations in a single function, like:

    version = s3.put_object(...)
    data = s3.get_object(version_id=version, ...)
I agree that when you deal with various processes it can become messy.

In practice it never bothered me too much though. I prefer having explicit synchronization through versions, rather than having a blocking write waiting for all caches to be synchronized.

Also, this should only be necessary if you write to an already existing object. New keys will always trigger a cache invalidation from my understanding.

fxtentacle said 8 days ago:

Depending on your write throughput, versioning can be quite expensive.

Also, we were already at a throughput where the s3 metadata nodes would sometimes go offline, so I'm not sure putting more work on them would have improved our overall situation.

Galanwe said 8 days ago:

Interesting, do you have more information on how you did monitors these S3 metadata nodes? Never heard of that.

Why would an unversioned put be less costly than a versioned put? To me it should be pretty much the same. I would almost suspect unversioned puts are hacked around versioned ones.

Out of curiosity what kind of workload did you perform? I have been moving terabytes of files (some very small 1kB files, some huge 150GB files) and never noticed a single blip of change in behavior from S3 (and certainly not anything going "off")

fxtentacle said 7 days ago:

> Interesting, do you have more information on how you did monitors these S3 metadata nodes? Never heard of that.

Pretty simple, we started a bulk import, and then HTTPS requests to amazonaws.com started timing out... Later, support told us to spread out our requests to alleviate the load spike.

What we did was process roughly 50mio 1MB JPEG images from the full-res S3 bucket into an derived-data S3 bucket.

dividuum said 8 days ago:

> S3 requests to US buckets might be served by delayed replicas in other countries if the request comes from outside the US

What? That makes no sense. Do you have a source for that? I thought the explicit choice of region when creating a bucket limits where data is located. Why would the give you geo-replication for free? Also: "Amazon S3 creates buckets in a Region you specify. To optimize latency, minimize costs, or address regulatory requirements, choose any AWS Region that is geographically close to you." - https://docs.aws.amazon.com/AmazonS3/latest/dev/UsingBucket....

Also the consistency when creating objects is described here: https://docs.aws.amazon.com/AmazonS3/latest/dev/Introduction.... For new objects, you get read-after-write consistency and the example you gave contradicts that.

Dunedan said 8 days ago:

> For new objects, you get read-after-write consistency and the example you gave contradicts that.

Mind the documented caveat for this case:

> The caveat is that if you make a HEAD or GET request to a key name before the object is created, then create the object shortly after that, a subsequent GET might not return the object due to eventual consistency.

dividuum said 8 days ago:

Indeed, although that seems irrelevant for the mentioned use case. After all, why would the client request an image before it's uploaded. It seems like a straight forward "server side upload->generate url and send it to client->client requests image" flow. It's perfectly covered by the consistency provided.

fxtentacle said 8 days ago:

That's what we did. Server side upload, link into websocket, client downloads image. It did work 99.99% of all requests.

Dunedan said 8 days ago:

I'm surprised about the conclusion of the AWS support that this is intended behavior. I'm curious about the specifics of the behavior of S3 in this case. Do you have any more detailed information from the AWS support you could share by any chance? If you don't mind, I'd be also grateful if you could drop some answers to the questions below.

Do you use S3 replication (CRR/SRR)?

Before uploading, do you make any request to the object key? If yes, what kind of request?

For downloading, do you use pre-signed URLs or is the S3 bucket public?

What's the error the 0,01% of users encounter? Is it a NoSuchKey error?

fxtentacle said 8 days ago:

They also say "A process writes a new object to Amazon S3 and immediately lists keys within its bucket. Until the change is fully propagated, the object might not appear in the list" which implies that you cannot read immediately after write.

dividuum said 8 days ago:

No. It does not imply that. It only implies that it might not be included in a List Operation. That's all this sentence tells you.

slaymaker1907 said 9 days ago:

You can minimize the effects of eventual consistency by distinguishing the distant replicas from the same-datacenter ones. Cross datacenter/region might be eventually consistent, but you will only see it rarely since the same-datacenter replicas are fully consistent with each other.

The main downside is that you have to pick one datacenter as the main datacenter at any given time. This can change if the old one goes down or due to business needs, but you can't have two of them as the main datacenter at once for a given dataset.

jmpman said 8 days ago:

Know of any commercial offerings with that characteristic?

Cixelyn said 9 days ago:

> EdgeFS is one I was looking at recently

Do you have any additional info? EdgeFS's github[1] doesn't work; does repo access require a Nexenta sales call?

We're also looking into asynchronously replicated FSs, I think built-in caching + tiering is slightly nicer than cron + rsync; would love to know what other solutions you looked into.

[1] https://github.com/Nexenta/edgefs

rsync said 9 days ago:

Don't give up too easily on (something like cron+rsync).

Things like cron+rsync fail in boring ways.

Fancy things fail in fascinating ways.

asyncscrum said 9 days ago:

This guy rsyncs

objectivefs said 8 days ago:

ObjectiveFS takes a different approach to high-availability durable file system by using S3 as the storage backend and building a log structured file system on top. This leverages the durability and scalability of S3 while allowing e.g. git cloning/diffing of a large project (even cross region) to remain fast. To compare we have some small file benchmark results at https://objectivefs.com/howto/performance-amazon-efs-vs-obje... .

harshaw said 9 days ago:

EFS attempts to solve this problem, although the speed of light between data centers is still a minor challenge.

hanikesn said 9 days ago:

Quobyte claim to have solved the synchronized distributed POSIX filesystem (mod geographically ).

fock said 9 days ago:

wait, S3 can do git now? I guess you are right in nearly everything... but starting with git on gluster and then jumping to selling apples as bananas (e.g. S3) doesn't really make an argument.

catlifeonmars said 9 days ago:

S3 isn’t a file system. It’s a key-value store. If you’re trying to use it as a file system, you’re doing it wrong :)

noidesto said 9 days ago:

Except its actually an object store and is used as a "file system" for hadoop/emr clusters for big data. See EMRFS.

bogomipz said 8 days ago:

That's exactly what a filesystem is.

Unix directories map directory and file names(keys) to inode numbers(values). And a file's inode(key) is a map to the data blocks(values) on disk that make up a file's content.

S3 might not have Posix semantics but to say it's not a filesystem is incorrect.

Nitramp said 8 days ago:

A Unix file system is not only a map from paths to inodes to bytes. Unix file systems support a host of additional apis, some of which are hard to implement on top of something like s3 (eg atomically renaming a parent path).

Even if you drop the Unix (posix) part, most practically used file systems have features that are hard to guarantee in a distributed setting, and in either case simply don't exist in S3.

bogomipz said 8 days ago:

The point in my post was to point out that storage implemented using keys and values is fundamental to all filesystems. To say that the very model that is fundamental to all filesystem is the thing that somehow precludes S3 from being considered a filesystem is kind of bizarre.

Also Nowhere did I say or even imply that a key/value store is all a Unix file system is. Different filesystems have different features. Object storage is a type of filesystem with a very specific feature set.

Nitramp said 7 days ago:

I understood the original poster as saying a system providing only key/value storage is not the same as a file system. I'd think that's something we can all agree on?

valenterry said 9 days ago:


It is an eventually consistent key-value store with some built-in optimization (indexes) for filtering/searching object timestamps and keys (e.g. listing keys by prefix), which allows for presenting them in a UI similar to how it is possible with files in a directory. That's about it.

gct said 9 days ago:

What do you think a file system is?

zelly said 8 days ago:

Eventually someone will find a coincidental or unintended aspect of your API and then depend on it. This article is the ultimate exemplar of this rule.

mobilemidget said 8 days ago:

but isn't a filename a key, and its content the value?

elhawtaky said 11 days ago:

I'm the author. Let me know if you have any questions.

hilbertseries said 9 days ago:

Reading through your article, this solution is built on top of s3. So, moving and listing files is faster, presumably due to a new metadata system you've built for tracking files. The trade off here, is that writes must be strictly slower now than they were previously because you've added a network hop. All read and write data now flows through these workers. Which adds a point of failure, if you steam too much data through these workers, you could potentially OOM them. Reads are potentially faster, but that also depends on the hit rate of the block cache. Would be nice to see a more transparent post listing the pros and cons, rather than what reads as a technical advertisement.

jamesblonde said 9 days ago:

I'm one of the co-authors. The numbers for writes are in the paper, so it is very unfair to call it an advertisement. And it is a global cache - if the block is cached somewhere, it will be used in reads.

xyzzy_plugh said 9 days ago:

The parent does make a good point about centralization of requests being a problem. S3 load balances under the hood, so different key prefixes within a bucket are usually serviced in isolation -- a DoS to one prefix will usually not affect other prefixes.

It seems like you'd be limiting yourself for concurrent access -- if everything is flowing through the MySQL cluster -- not a bad thing! Just perhaps warrants a caveat note. I'd expect S3 to smoke HopFS on concurrency.

jamesblonde said 8 days ago:

Read the paper, it doesn't smoke HopsFS on concurrency. In the 2nd paper, we get 1.6m ops/sec on HopsFS HA over 3 availability zones (without S3 as a backing layer). Can you get that on S3 (maybe if you are Netflix, otherwise your starting quota is 1000s ops/sec)?

nostrebored said 8 days ago:

"Amazon S3 automatically scales to high request rates. For example, your application can achieve at least 3,500 PUT/COPY/POST/DELETE or 5,500 GET/HEAD requests per second per prefix in a bucket. There are no limits to the number of prefixes in a bucket. You can increase your read or write performance by parallelizing reads. For example, if you create 10 prefixes in an Amazon S3 bucket to parallelize reads, you could scale your read performance to 55,000 read requests per second."

With 500 prefixes it doesn't matter if you're Netflix or a student working on a distributed computing project, you can get that 1.6m requests.

There is no limit to the number of prefixes in a bucket. You can scale to be arbitrarily large.

jamesblonde said 8 days ago:

S3 has quotas. Go try and get 1m ops/sec as a quota.

carlhjerpe said 8 days ago:

I hope your marketing team doesn't see this kind of arguing.

dividuum said 9 days ago:

The linked post says "has the same cost as S3", yet on the linked pricing page there's only a "Contact Us" Enterprise plan besides a free one. Am I missing something?

jamesblonde said 9 days ago:

There is no extra charge for HopsFS as part of the Hopsworks platform - so you only pay for what you read/write/store in S3. There is SaaS pricing public on hopsworks.ai.

runako said 8 days ago:

This was also not clear to me when looking at the pricing page. I assumed there was Free and Enterprise, and that to use this beyond 250 working days, I would have to go to Enterprise.

jamesblonde said 8 days ago:

No, like Dropbox if you do referrals you can get extra credit and stay on the free tier indefinitely. Or you can pay-as-you go on the non-enterprise tier.

fh973 said 9 days ago:

> ... but has 100X the performance of S3 for file move/rename operations

Isn't rename in S3 effectively a copy-delete operation?

booi said 9 days ago:

That’s my understanding too. Also rename / copy turned out not to be very useful at the end of the day. Nearly all my implementations just boil down to randomized characters as ids

yandie said 9 days ago:

Yup. Use a system like Redis/DynamoDB or even a traditional database to store the metadata and use random UUID for actual file storage.

And tag the files for expiration/clean up. S3 is not a file system and people should stop treating it like one - only to get bitten by these assumptions around it being a FS.

ajb said 9 days ago:

You say it's "posix-like" - so what from posix had to be left out?

jamesblonde said 9 days ago:

Random writes are not supported in the HDFS API.

fwip said 9 days ago:

What tradeoffs did you make? In what situations does S3 have better characteristics than HopsFS?

said 9 days ago:
de_Selby said 9 days ago:

How does this differ from Objectivefs?

jamesblonde said 9 days ago:

Funnily enough, i wasn't aware of ObjectiveFS - i guess it's because i can't find a research paper for it. HopsFS on S3 is similar to ADLS on Azure (built on Azure block storage). Internally, ADLS and HopsFS are different - HopsFS has a scaleout consistent metadata layer with a CDC API, while ADLS doesn't. But ADLS-v2 is also very good.

rsync said 9 days ago:

I searched your page, and then this HN discussion, for the string 'ssh' and got nothing ...

What is the access protocol ? What tools am I using to access the POSIX presentation ?

jeffbee said 9 days ago:

Diagram seems to imply an active/passive namenode setup like HDFS. Doesn't that limit it to tiny filesystems, and curse it with the same availability problems that plague HDFS?

chordysson said 9 days ago:

No because HopsFS uses a stateless namenode architecture. From https://github.com/hopshadoop/hops

"HopsFS is a new implementation of the Hadoop Filesystem (HDFS), that supports multiple stateless NameNodes, where the metadata is stored in MySQL Cluster, an in-memory distributed database. HopsFS enables more scalable clusters than Apache HDFS (up to ten times larger clusters), and enables NameNode metadata to be both customized and analyzed, because it can now be easily accessed via a SQL API."

SirOibaf said 9 days ago:

No, HopsFS namenodes are stateless as the metadata is stored on an in-memory distributed database (NDB)

There are other papers that describe HopsFS architecture in more details if you are interested: https://www.usenix.org/system/files/conference/fast17/fast17...

hartator said 9 days ago:

> 100X the performance of S3 for file move/rename operations

I don’t see how it can be useful. Moving or renaming files in S3 seems more like maintenance than something you want to do on a regular basis.

colinwilson said 9 days ago:

Systems like Hadoop and Spark will run multiple versions of the same task writing out to a FS at once but to a temporary directory and when the first finishes the output data is just moved to the final place. It's not uncommon for a job to "complete" writing data to S3 and just sit there and hang as the FS move commands run copying the data and deleting the old version. It is just assumed a rename/move is a no-op in some systems.

randallsquared said 9 days ago:

Also, I presume that "move" means "update the index, held in another object or objects" (no slight! If I understand correctly, that's what most on-disk filesystems do as well). That's the only way I can imagine getting performance that much better.

stingraycharles said 9 days ago:

We do this in our ETL jobs on several hundreds of thousands of files a day. Not a reason to switch to a different system, but there are definitely non-maintenance use cases for this.

otterley said 9 days ago:

Any particular reason you don't tag the objects instead? That's a significantly lighter-weight operation, since S3 doesn't have native renaming capability.

jamesblonde said 8 days ago:

In HopsFS, you can also tag objects with arbitrary metadata (the xattr API), and the JSON objects you tag with are automatically (eventually consistent) replicated to Elastic search. So, you can search the FS namespace with free-text search on elastic. However, the lag is up to 100ms from the MySQL Cluster metadata. See the epipe paper in the blog post for details.

bfrydl said 9 days ago:

You can't list objects by tag.

dragonwriter said 9 days ago:

IIRC, you can, but it's bit elliptical: because IAM access policies can key off tags, you can adopt an IAM role that can only see the desired tags, and list objects.

haodemon said 8 days ago:

If someone is affected by the "copy-delete on move" problem on S3: there is a way to mitigate this https://hadoop.apache.org/docs/r3.1.1/hadoop-aws/tools/hadoo...

Aperocky said 9 days ago:

S3 isn't a file system? There's a reason it's called buckets.

There's no 'renaming' of any file in S3. I don't think AWS had S3 as file system in mind. There's EBS for that.

dragonwriter said 9 days ago:

> I don't think AWS had S3 as file system in mind. There's EBS for that.

EBS isn't a file system, it's lower level than that (it's. block store, hence the name; you bring your own filesystem.) EFS and FSx are filesystems.

Aperocky said 8 days ago:

Thanks for correcting.

optimalsolver said 9 days ago:

>There's EBS for that

Don't you have to spin up an EC2 instance to use that?

Aperocky said 9 days ago:

You can keep it standalone or use it across multiple EC2 instances per my understanding.

stevekemp said 9 days ago:

Lambdas can use EBS these days, for persistent storage.

Dunedan said 8 days ago:

You might be confusing EBS (Elastic Block Storage) with EFS (Elastic File System): https://aws.amazon.com/blogs/compute/using-amazon-efs-for-aw...

ComputerGuru said 9 days ago:

To be fair, EBS rolled out many years after.

untech said 8 days ago:

From the title, I though that this is a technology which gives you 100x faster static sites compared to S3, which sounded really cool. Discovering that it was about move operations was really underwhelming. The title is on the edge of being misleading.

smarx007 said 8 days ago:

I think the right title may have been "HopsFS: speeding up HDFS over S3 by up to 100x"

daviesliu said 8 days ago:

We see similar results using JuiceFS [1], are glad to see that another player has moved on the same direction with us, since JuiceFS was released to public in 2017, and is available on most of public cloud vendor.

The architect of JuiceFS is simper than HopsFS, it does not have worker nodes (the client access S3 and manage cache directly), and the metadata is stored in highly optimized server (similar to NN in HDFS, can be scaled out by adding more nodes).

JuiceFS provide POSIX client (using FUSE), and Hadoop SDK (in Java), and a S3 gateway (also a WebDAV gateway).

[1]: https://juicefs.com/docs/en/metadata_performance_comparison....

Disclaimer: Founder of JuiceFS here

perrohunter said 8 days ago:

Dude, there’s literally no rename/move in the official S3 specification, you are going to need to do a PUT object operation which is going to be as fast as a PUT operation is. If you judge a fish for its ability to fly it will feel stupid.

threeseed said 9 days ago:

Looks no different to Alluxio or Minio S3 Gateway or the dozens of other S3 caches around.

Would've been more interesting had it taken advantage of newer technologies such as io_uring, NVME over Fabric, RDMA etc.

emmanueloga_ said 8 days ago:

I was gonna ask how it compares with Minio. Minio looks incredibly easy to "deploy" (single executable!) [1]. Looks nice to start hosting files on a single machine if there's no immediate need for the industrial strength features of AWS S3, or even to run locally for development.

1: https://min.io/download

rwdim said 11 days ago:

What’s the latency with 100,000 and 1,000,000 files?

elhawtaky said 11 days ago:

We haven't run mv/list experiments on 100,000 and 1,000,000 files for the blog. However, We expect the gap in latency between HopsFS/S3 and EMRFS would increase even further with larger directories. In our original HopsFS paper, we showed that the latency for mv/rename for a directory with 1 million files was around 5.8 seconds.

said 9 days ago:
spicyramen said 9 days ago:

I have VM for my data scientists already in GCP, my datasets live in Google Cloud Storage. Can I take advantage of HopsFS for a shared file system across my VMs. Google Filestore Is ridículous expensive and at least they give u 1TB. Multi writer only supports 2VMs

boulos said 8 days ago:

Disclosure: I work on Google Cloud.

If Filestore (our managed NFS product) is too large for you, I'd suggest having gcsfuse on each box (or just use the GCS Connector for Hadoop). You won't get the kind of NFS-style locking semantics that a real distributed filesystem would support, but it sounds like you mostly need your data scientists to be able to read and write from buckets as if they're a local filesystem (and you wouldn't expect them to actively be overwriting each other or something where caching gets in the way).

Edit: We used gcsfuse for our Supercomputing 2016 run with the folks at Fermilab. There wasn't time to rewrite anything (we went from idea => conference in a few weeks) and since we mostly just cared about throughput it worked great.

spicyramen said 8 days ago:

Thanks for replying, is there any performance numbers for gcsfuse. We use small files and large files. We write small files at high rate. (Jupyter Notebooks) and can read and write large files (models) I also started looking into the multi writer and wondering if there are new developments (nodes >2)

boulos said 8 days ago:

More than anything, gcsfuse and similar projects that don’t put a separate metadata / data cache in between, reflect GCS’s latency and throughput (with a bit of an extra burden for being done through fuse).

GCS has pretty high latency. So even if you write a single byte, expect it to be like 50+ms. This is slower than a spinning disk in an old computer. If you’re just updating a single person’s notebook, they’ll feel it a bit on save (but obviously each person and file is independent).

But you can also do about 1 Gbps per network stream (and putting several of those together, 32+ Gbps per VM) such that even a 1 MB file is also probably done in about that much time. I think for streaming writes (save model) gcsfuse may still do a local copy until some threshold before writing out.

I’d probably put your models directly on GCS though. That’s what we do in colab and with TensorFlow (sadly, it seems from a quick search that PyTorch doesn’t have this out of the box).

Filestore and multi-writer PD will naturally improve over time. But I’m guessing you need something “today”. Feel free to send me a note (contact in profile) if you want to share specifics.

daviesliu said 8 days ago:

JuiceFS supports GCS and can be used in GCP, we have customers use it for data scientists. JuiceFS is free if you don't have data more than 1TB.

Discloser: Founder of JuiceFS here

therealmarv said 9 days ago:

Reading/writing SMALL files are SUPER slow on things like S3, Google Drive, Backblaze. Also using a lot of threads does only help a little bit but it's nowhere near reading/writing speeds of e.g. a single 600MB file.

Is HopsFS helping in this area?

Galanwe said 9 days ago:

> it's nowhere near reading/writing speeds of e.g. a single 600MB file.

I have to disagree here. If you look at benchmarks on internet, yes, it will look like S3 is dead slow. But that is a client problem, not an S3 problem. For instance, boto3 (s3transfer) is an awful implementation that was so overengineered with a reimplementation of futures, task stealing, etc, that the download throughput is pathetic. Most often it will make you top below 200MB/s.

But S3 itself scales very well if you know how to use it, and skip boto3.

From my experience and benchmarks, each S3 connection will deliver up to 80MB/s, and with range requests you can easily have multiple parallel blocks downloaded.

I wrote a simple library that does this called s3pd (https://github.com/NewbiZ/s3pd). It's not perfect and is process based instead of coroutines, but that will give you an idea.

For reference, using s3pd I can saturate any EC2 network interface that I found (tested up to 10Gb/s interfaces, with download speed >1GB/s).

Boto is really doing bad press to S3.

Matthias247 said 9 days ago:

It's not surprising that it's slow. Handling files has 2 costs associated to it: One is a fixed setup cost, which includes looking up the file metadata, creating connections between all the services that make it possible to access the file, and starting the read/write. The other part is actually transferring the file content.

For small files the fixed cost will be the most important factor. The "transfer time" after this "first byte latency" might actually be 0, since all the data could be transferred within a single write call on each node.

ignoramous said 9 days ago:

How small are the files?

Here are some strategies to make S3 go faster: https://news.ycombinator.com/item?id=19475726


You're right that S3 isn't for small files but for a lot of small files (think 500 bytes), I either plunge them to S3 through Kinesis Firehose or fit them gzipped into DynamoDB (depending on access patterns).

One could also consider using Amazon FSx which can IO to S3 natively.

deathanatos said 9 days ago:

> Reading/writing SMALL files are SUPER slow on things like S3

My experience was the opposite. Small files work acceptably quickly, the cost can't be beat, and the reliability probably beats out anything else I've seen. We saw latencies of ~50ms to write out small files. Slower than an SSD, yes, but not really that slow.

You do have to make sure you're not doing things like re-establishing the connection to get that, though. If you have to do a TLS handshake… it won't be fast. Also, in you're in Python, boto's API encourages, IMO, people to call `get_bucket`, which will do an existence check on the bucket (and thus, double the latency due to the extra round-trip); usually, you have out-of-band knowledge that the bucket will exist, and can skip the check. (If you're wrong, the subsequent object GET/PUT will error anyways.)

chordysson said 9 days ago:

Regarding small files, HopsFS can store small files in the metadata layer for improved performance.


jamesblonde said 9 days ago:

Yes, this paper did not compare small file performance in HopsFS with EMRFS/S3. But HopsFS on S3 also supports storing small files on NVMe disks in the metadata layer. Previously, we have shown that we can get up to 66X higher throughput for writes for small files versus HDFS (peer reviewed, of course) - https://www.logicalclocks.com/blog/millions-and-millions-of-...

oneplane said 9 days ago:

Does it matter? I often see 'our product is much faster than thing X at cloud Y!' and find myself asking why. Why would I want something less integrated for a performance change I don't need, a software change I'll have to write and an extra overhead for dealing with another source?

It's great that one individual thing is better than one other individual thing, but if you look at the bigger picture it generally isn't that individual thing by itself that you are using.

rgbrenner said 9 days ago:

Ok so you're not the target customer for this product. Do you believe people with this problem should be deprived of a solution just because you don't need it?

oneplane said 9 days ago:

I don't think I suggest that a product should not exist. I suggest that targeting the competition instead of the use case is a bit silly.

lowdose said 9 days ago:

Conflict generates more attention.

ethanwillis said 9 days ago:

It does matter, because not every use case requires everything but the kitchen sink. If you're building things that only ever require the same mass produced components for every application, well that stifles the possibilities of what can be built.

oneplane said 9 days ago:

So say you have a solution for your object storage and it is plenty. Then a different product pops up, solves the same problem in exactly the same way, and costs the same. Migrating isn't free and at the end you have two suppliers to manage. Does that make any sense at all? I think not.

There is a different case that makes sense: you have object storage and it's not sufficient, so you go look for object storage suppliers that deliver something different so it suits your need. Now it makes sense to look for a service that is relatively similar to what you are already using but is better in a factor that is significant for your application (i.e. speed of object key changes), now it does make sense.

Marketing just says: "Look at us, we are faster". I think that message is not going to matter unless that happens to be your exact problem in isolation, which isn't exactly common; systems don't tend to run in isolation.

simonebrunozzi said 8 days ago:

If you're curious, I once gave an in-depth talk about S3 internals in 2009, back when I was at AWS [0].

[0]: https://vimeo.com/7330740

Just1689 said 9 days ago:

Do you plan on having s Kubernetes storage provider? I like the idea of present a POSIX like mount to s container while paying per use for storage in S3

threeseed said 9 days ago:

You can do this using s3backer, goofys etc to mount S3 as a host filesystem and then use the host path provisioner.

javierdlrm said 8 days ago:

The hostPath provisioner has just RWO access mode, which means only single node. For RWX (read-write in multi-node), Goofys could be used via CSI though.

jamesblonde said 8 days ago:

I like the idea, too :) We have it as a project for a Master's student at KTH starting in January.

said 9 days ago:
boulos said 9 days ago:

Disclosure: I work on Google Cloud.

Cool work! I love seeing people pushing distributed storage.

IIUC though, you make a similar choice as Avere and others. You're treating the object store as a distributed block store [1]:

> In HopsFS-S3, we added configuration parameters to allow users to provide their Amazon S3 bucket to be used as the block data store. Similar to HopsFS, HopsFSS3 stores the small files, < 128 KB, associated with the file system’s metadata. For large files, > 128 KB, HopsFS-S3 will store the files in the user-provided bucket.


> HopsFSS3 implements variable-sized block storage to allow for any new appends to a file to be treated as new objects rather than overwriting existing objects

It's somewhat unclear to me, but I think the combination of these statements means "S3 is always treated as a block store, but sometimes the File == Variably-Sized-Block == Object. Is that right?

Using S3 / GCS / any object store as a block-store with a different frontend is a fine assumption for dedicated client or applications like HDFS-based ones. But it does mean you throw away interop with other services. For example, if your HDFS-speaking data pipeline produces a bunch of output and you want to read it via some tool that only speaks S3 (like something in Sagemaker or whatever), you're kind of trapped.

It sounds like you're already prepared to support variably-sized chunks / blocks, so I'd encourage you to have a "transparent mode". So many users love things like s3fs, gcsfuse and so on, because even if they're slow, they preserve interop. That's why we haven't gone the "blocks" route in the GCS Connector for Hadoop, interop is too valuable.

P.S. I'd love to see which things get easier for you if you are also able to use GCS directly (or at least know you're relying on our stronger semantics). A while back we finally ripped out all the consistency cache stuff in the Hadoop Connector once we'd rolled out the Megastore => Spanner migration [2]. Being able to use Dual-Region buckets that are metadata consistent while actively running Hadoop workloads in two regions is kind of awesome.

[1] https://content.logicalclocks.com/hubfs/HopsFS-S3%20Extendin...

[2] https://cloud.google.com/blog/products/gcp/how-google-cloud-...

jamesblonde said 8 days ago:

>It's somewhat unclear to me, but I think the combination of these statements means "S3 is always treated as a block store, but sometimes the File == Variably-Sized-Block == Object. Is that right?

If the file is "small" (under a configure size, typically 128KB), it is stored in the metadata-layer, not on S3. Otherwise, if you just write the file once in one session (and it is under the 5TB object size limit in S3), there will be one object in S3 (variable size - blocks in HDFS are by default fixed size). However, if you append to the file, then we add a new object (as a block) for the append.

We have a new version under development (working prototype) where we can (in the background) rewrite all the blocks in a single file as a single object, and make the object readable by a S3 API. It will be released some time next year. The idea is that you can mark directories as "S3 compatible" and only pay for rebalancing those ones as needed. But you then have the choice of doing the rebalancing on-demand or as a background task, and prioritizing, and so on. You know the tradeoffs. Yes, it would be easier to do this with GCS. But we did AWS and Azure first, as we feel GCS is more hostile to third-party vendors. The talks we have given at google (to the colossus team a couple of years ago and to Google Cloud/AI - https://www.meetup.com/SF-Big-Analytics/discussions/57666504... ) are like black holes of information transfer.

boulos said 8 days ago:

Your upcoming flexibility sounds awesome. I assume many people would just mark the entire bucket as “compatible” to support arbitrary renames/mv of directories, but being able to say “keep this directory in compat mode” for people who use a single mega bucket and split into teams / datasets at the top will be nice.

I’m sorry if you’ve tried to talk to us and we’ve been unhelpful. I’d be happy to put you in touch with some GCS people specifically — the Colossus folks are multiple layers below, while the AI folks are multiple layers above. They were probably mostly not sure what to say!

We worked quite openly and frankly with the Twitter folks on our GCS connector [1]. I’d be happy to help support doing the same with you. My contact info is in my profile.

(Though I’d definitely agree that we’ve also been surprisingly reticent to talk about Colossus, until recently the only public talk was some slides at FAST).

[1] https://cloud.google.com/blog/products/data-analytics/new-re...

daviesliu said 8 days ago:

> interop is too valuable

Good point, JuiceFS already provides this "transparent mode", which is called compatible mode.

mwcampbell said 9 days ago:

> But, until today, there has been no equivalent to ADLS for S3.

ObjectiveFS has been around for several years. How is HopsFS better?

daviesliu said 8 days ago:

There are different when they are read/write from multiple clients in same time. HopsFS can use the meta service to synchronize with each other under low latency (about ms), but ObjectiveFS have to use S3 to do the synchronisation, which has much higher latency (> 20ms).

We have chatted on these with the founders of ObjectiveFS before creating JuiceFS, they did NOT recommend to use ObjectiveFS in big data workload with Hadoop/Spark, that's why we started to build JuiceFS since 2016.

SirOibaf said 9 days ago:

I'd say that the main difference with ObjectiveFS are metadata operations. From the documentation of ObjectiveFS:

`doesn’t fully support regular file system semantics or consistency guarantees (e.g. atomic rename of directories, mutual exclusion of open exclusive, append to file requires rewriting the whole file and no hard links).`

HopsFS does provide strongly consistent metadata operations like atomic directory rename, which is essential if you are running frameworks like Apache Spark.

mwcampbell said 9 days ago:

That quote from the ObjectiveFS documentation [1] is out of context. It was describing limitations in s3fs, not ObjectiveFS. My understanding is that because ObjectiveFS is a log-structured filesystem that uses S3 as underlying storage, it doesn't have those limitations.

[1]: https://objectivefs.com/faq

jamesblonde said 9 days ago:

A quick read of ObjectiveFS, and it doesn't appear to be a distributed filesystem. It appears to be a single service (log -structured storage on a service) that is backed by S3. Am I wrong? (HopsFS is a distributed hierarchical FS).

mwcampbell said 9 days ago:

If I understand the distinction you're making, then yes, you're wrong. The really beautiful thing about ObjectiveFS is that it's distributed, but the user doesn't really have to be concerned about that. A user can mount the same S3-backed ObjectiveFS filesystem on multiple machines, and they will somehow coordinate their reads and writes to that one S3 bucket, without having to communicate with any central component besides S3 itself and the ObjectiveFS licensing server.

jamesblonde said 8 days ago:

That's not what I meant by a distributed file system. Is the metadata layer of ObjectiveFS distributed - scale-out. Can you add nodes to increase the metadata layer's capacity and throughput, so it can scale to handle millions of ops/sec? That's what I meant by a distributed file system (not just a client server, with a single metadata server).

mwcampbell said 8 days ago:

There is no metadata server. The clients access S3 directly, and keep their own caches of both metadata and data. I don't know how the clients cootrdinate their writes and invalidate their caches, but somehow they do. From my perspective as a user, it just works.

Lucasoato said 9 days ago:

Can this be installed on AWS EMR clusters?

SirOibaf said 9 days ago:

Not really, but you can try it out on https://hopsworks.ai

It's conceptually similar to EMR in the way it works. You connect your AWS account and we'll deploy a cluster there. HopsFS will run on top a S3 bucket in your organization. You get a fully featured Spark environment (With metrics and logging included - no need for cloudwatch). UI with Jupyter notebooks, the Hopsworks feature store and ML capabilities that EMR does not provide.

jamesblonde said 9 days ago:

Yeah, https://hopsworks.ai is an alternative to EMR that includes HopsFS out-of-the-box. You get $4k free credits right now - it includes Spark, Flink, Python, Hive, Feature Store, GPUs (tensorflow), Jupyter, notebooks as jobs, AirFlow. And a UI for development and operations. So kind of like Databricks with more of a ML focus, but still supporting Spark.

threeseed said 9 days ago:

You could but I would do thorough real-world benchmarks.

EMRFS has dozens of optimisations for Spark/Hadoop workloads e.g. S3 select, partitioning pruning, optimised committers etc and since EMR is a core product it is continually being improved. Using HopsFS would negate all of that.

daviesliu said 8 days ago:

JuiceFS can used in AWS EMR cluster, we have customers using JuiceFS to address the consistency and performance issues from S3.

There is a blog post [1] talking about this use case. Unfortunately, we have not publish a English version, you can read it using google translate .

[1] https://juicefs.com/blog/cn/posts/globalegrow-big-data-platf...

Disclaimer: Founder of JuiceFS here.

peterwwillis said 9 days ago:

Why in the world would they build on S3 rather than EBS?

jamesblonde said 8 days ago: