Saturday, August 18, 2012

HDDs and SSDs: Step 1 - SSD, Step 2 - Profit

Oh how times have changed.  The last time I wrote a big storage post like this, HDD prices were so low I was buying Samsung Spinpoints to use as paperweights.  All it took was a little rain in Thailand and suddenly you could trade a 2TB HDD for ownership of an actual human being.  Things have settled down significantly since then, but the rise in mechanical drive prices, coupled with a steep decline in the price of SSDs, has really altered the buying equation.

Hard Disk Drives:  Expensive, but Still Necessary.


There's just no getting around the fact that, even on sale, most HDDs are at least $20 more expensive than they were before the floods in Thailand.  They aren't as excessively expensive as they were immediately following the flooding in Thailand, but you will spend more to buy one today than you would have a year or so ago.  Still, you'll want one, even if you only need it to hold your documents and media files so that your SSD doesn't have to.  The factors you're looking at haven't changed much:

1.  Spindle Speed:  The RPM rating of a mechanical hard drive is the speed at which the spindle, and thus the platters (the magnetized disks holding data) inside the drive spin.  The higher the RPM, the faster the drive.  For a system drive you want at least a 7200 RPM drive, I'd probably also prefer 7200 RPM for the secondary drive to go with an SSD, just to ensure fairly quick response for documents and other data stored on the drive.  Storage drives (and drives for a NAS/Server) can be of the slower 5400 RPM "Green" variety. 

2.  Capacity:  500GB drives are, in $/GB terms, a worse value than 1 and 2 TB drives.  If you can find a good deal on a 1TB drive, that's probably the best drive deal available for a primary/secondary system disk.  Still, 7200 RPM 2TB drives are more common and affordable now, and depending on sales and pricing can be better $/GB deals than 1TB drives.  You shouldn't bother buying a storage disk in a capacity lower than 2TB.

3.  Cache:  I'd say that 16MB of cache is good for a 500GB drive, 32MB is good for 1TB, 64 is good for 2TB.

4.  SATA III:  Most newer drives indicate full SATA 6Gb/s compatibility, which is meaningless because they'll never manage to saturate 3Gb/s, much less 6, but it doesn't impact performance and there's virtually never a price premium associated with it.  Basically, just don't buy a Hard Drive that runs on IDE or SATA 1.5Gb/s.

I still like the Samsung Spinpoint F3 1TB for a great value primary/secondary system drive.  It's speedy, relatively inexpensive (and goes on sale frequently) and, in my experience, reliable.  The newer ones are built by Seagate, but the drives are apparently unchanged (I own a pair of the new ones in addition to my older ones, and the controller PCB appears identical), the main difference appears to be where the drive components are sourced from.  Per usual, Seagate's Barracuda drives and Western Digital's Black series of drives are both excellent options as well.

For storage drives you have a few options.  Samsung's Spinpoint 2TB Green drives have had some pretty serious firmware issues in the past, but these appear to have been solved.  Their performance isn't world-beating, by any means, but they are generally one of the cheaper available 2TB drives and they appear to go on sale frequently..  Western Digital's Green drives are solid enough, but they do lack TLER (for RAID usage) and the fairly frequent head parking can be an irritant.  If you can find Seagate's 2TB 5900 RPM drive or Hitachi's 2 TB 5400 RPM drive at a reasonable price, those are both good buys.  Western Digital has recently released a new Red series of drives, specifically tailored for use with NAS appliances.  The stats in general for these drives look very good, so they'll probably be good storage options regardless of whether or not you use them "as intended."

Solid State Drives - Everyone Should Have an SSD.  Seriously.


You can buy a quality 128GB drive for like $90.00.  Yeah, let that wash over you.  Less than a year ago I paid almost $300.00 for a 120GB SATA 3Gb/s SSD, and now I can kick that drive's ass for less than a third of that price.  Admittedly, it's still not the best $/GB ratio around, but for the sheer performance of these drives, it's easily worth it.  Larger capacities can be even better deals, 256GB drives have been known to go on sale for as little as $150.00!  At those prices, you can't afford not to buy one, especially given the big performance jump over mechanical drives, lower power usage, smaller form-factor, and lack of any appreciable heat, noise, and vibration.

When choosing an SSD, buyers will want to look at price, along with 3 main factors that do the most to determine performance:  NAND type, controller, and firmware.  Generally speaking, there are 3 main types of NAND flash in use these days, Sychronous, Asynchronous, and Toggle.  Each has some different performance characteristics, with Synchronous and Toggle NAND generally considered the highest performing overall, though Asynchronous NAND based SSDs can be significantly cheaper.  I've noted the major current controllers (and firmware, where appropriate) below:

Sandforce - Ah, Sandforce.  Performance, low prices, what more could you ask for?  Frankly, stability.  Sandforce became fairly notorious early in this SSD generation for the frequent, seemingly inexplicable BSODs that occured on drives using their SF-2281 controller.  It took weeks for them to discover the cause of the error, and even longer for the firmware fix to make the rounds, and even now Sandforce drives are, relatively speaking, probably the least stable drives available.  Intel's 330 and 520 series SSDs have custom-made firmware that makes them the most reliable of this generation of Sandforce drives.  OCZ and Kingston have both developed more aggressively performance oriented Sandforce drives, with firmware to match.  Generally speaking, the most recent firmware packages for these drives make them solid enough for "home" use (I own two Corsair-built Sandforce drives and virtually never have any issues when using the newest firmware) and they are often excellent values from a price/performance perspective.  Whether or not you pick one of these drives over one based on another controller depends largely on your planned usage of the drive and whether or not the performance of the drive is worth the loss in stability.

Marvell
- This generation of Marvell-based drives are considered very reliable, with competitive but not top-of-the-heap performance and excellent value.  Many companies make Marvell-based drives, including Crucial's nearly ubiquitous M4, which is an excellent confluence of price, performance and stability (also available in a 7mm version).  In addition to Crucial, Plextor has an excellent warranty policy and makes multiple excellent, performance focused Marvell-based SSDs and Corsair makes the Performance Pro, another performance oriented drive based on the Marvell controller.  A new, higher performance generation of Marvell controller is about to be released into the wild, starting with the Plextor M5 Pro.

Samsung - Samsung has their own controller for their own SSD, the Samsung 830.  Performance is excellent, and the drive is rock solid, just like its SATA 3Gb/s predecessor.  The drives are also 7mm tall, perfect for those who have "picky" laptops that only support that form factor.  In my experience, these drives are generally more expensive than comparable Sandforce and Marvel SSDs, but not excessively so, and I have seen them on sale.

OCZ/Indilinx Everest - The Everest controller is OCZ's first entry into using their own controllers (previously they had an agreement with Sandforce) and it's a pretty impressive "rookie" effort.  Technically speaking the actual silicon is made by Marvell (possibly derived from the next-gen controller in the Plextor M5 Pro) along with custom firmware from OCZ.  By some measures, these Everest based drives (right now just the OCZ Vertex 4) are the fastest around, and firmware revisions have kept them quick and reliable.  They aren't generally cheap, though.

If I had a gun to my head and had to pick just one product line to recommend, I'd say you're always safe with a Crucial M4.  As I mentioned above, they're some of the least expensive drives around, they frequently go on sale, they're available in multiple form factors, they perform well, and they're stable.  Not to sound too hyperbolic, but there's definitely a part of me that believes the 128GB and 256GB M4 SSDs are the best buys in storage today.

CPUs and Motherboards: Monopolies Make for Easy Buying Decisions

Processors:

So, the last time I wrote a big Motherboard/CPU post, Bulldozer was in the offing and even those of us on Intel platforms were probably cherishing hopes that AMD would start competing in the enthusiast CPU space again.  As is so often the case, hope was simply the first step on the road to disappointment.  Bulldozer was disingenuously marketed (really AMD, 8 cores?) and hopelessly outclassed by an architecture that released months before it did.  Since then, AMD has abandoned the enthusiast market to focus on APU and (presumably) mobile development in order to cling to relevancy.

The silver lining here is that AMD's incompetence has made building a PC easier for everyone: just buy an Intel proc.  "But it's not that simple!" you cry.  Admittedly, AMD's APUs are a nice product for the niche they occupy, but most people building a PC want discrete graphics, or aren't doing anything beyond the capabilities of an Intel integrated GPU.  Intel CPUs are the right call in almost all cases. 

Anyway, after making AMD look bad without even really trying, Intel released Ivy Bridge, a Sandy Bridge die shrink that includes Tri-Gate transistors as well as support for PCI-E 3.0 and a few other new gizmos.  In terms of processor performance, Ivy Bridge isn't a big improvement over Sandy Bridge, so the recommendations haven't changed much:

Intel Pentium G620/Celeron G550 - ~$60.00:  For the builder on a budget, the Pentium/Celeron is a perfect compromise.  It isn't clocked as high as an i3 and lacks some features from the higher end Core line (any kind of overclockability, Turbo Boost, Hyper Threading, Quick Sync, etc.) but that doesn't mean it isn't still great value.  Don't let the price fool you, it'll keep up with most workloads, and won't hold your video card back when you start up Pong or whatever other newfangled nonsense you rapscallions are playing these days.

Intel Core i3-2100 (Sandy Bridge), Intel Core i3-3220 (Ivy Bridge) - ~$120.00:  Ivy Bridge Core i3s don't come in quite the same number of "flavors" as the Sandy Bridge versions (at least not yet) but there's something out there for basically everyone.  For basic usage in a run-of the mill gaming PC, the i3-2100 (or i3-2120, depending on pricing) or the i3-3220 are your go-to chips.

Intel Core i5-2310 (Sandy Bridge), Intel Core i5-3350P/i5-3330 (Ivy Bridge):  Not everyone needs an overclockable proc, but many people are still interested in quad-core CPUs.  More games and applications are starting to take advantage of higher core counts, so those desiring four cores at a more affordable (read, sub 200 dollar) price are advised to look at these procs.  The "P" designation indicates that a lack of onboard video, so keep that in mind.

Intel Core i5-2500K (Sandy Bridge), Intel Core i5-3570K (Ivy Bridge) - ~$220.00:  The 2500K is still fantastic and is usually priced around $220.00, but seems to go on sale fairly often and can drop to $200.00.  The i5-3570K is often slightly more expensive, but is almost indistinguishable from its predecessor, performance-wise.  As mentioned above, Ivy Bridge does enable PCI-E 3.0 and some other benefits, but depending on your usage and equipment, either proc can be the right choice.  The 2500K generally OCs a bit better, particularly on air.

There's really no reason for the vast majority of buyers to look at more than the 2500K/3570K can offer.  Hyper Threading is not a particularly significant addition given the workloads of most home users, and that's really all the extra Benjamin buys you.  Those of you with niche cases that aren't covered by the above recommendations are welcome to ask in the thread or PM me regarding what you might need.

Motherboards:

All the processors I'm willing to recommend are on LGA 1155, but there are multiple motherboard chipsets available for these CPUs, split between Cougar Point chipsets (introduced with Sandy Bridge) and Panther Point chipsets (introduced with Ivy Bridge).  H61 is the most budget-oriented of the Cougar Point chipsets, and would be most appropriate for a very low cost build utilizing a Celeron or Pentium CPU.  H67 is the next step up, and generally these boards have more complete feature-sets, but are not SLI/CFX capable and do not allow for overclocking.  P67 allows for overclocking and multiple video cards, but does not provide the ability to utilize the integrated GPU as well.  Z68 followed after and enabled use of the integrated GPU, along with some other processor features, and some boards on this chipset include PCI-E 3.0 compatibility when used with Ivy Bridge procs.  The most relevant new chipsets are Z77 and H77, which released with Ivy Bridge.  They are backwards compatible, though PCI-E 3.0 will not work with Sandy Bridge procs.  For full enthusiast-class systems, there's no good reason not to just go with a Z77 board, it does everything a P67 or Z68 board could do and more.  H77 is an excellent chipset for lower-end systems that don't need overclocking capability, but H67 and H61 are not necessarily significantly less capable, and may be better values depending on your processor choice and desired feature-set.

There are a few manufacturers I would consider to be most worth considering for your purchasing dollars:

ASUS – ASUS is probably my favorite motherboard manufacturer.  I'd go with ASUS if you’re looking for a board with fairly cutting edge tech, and useful extras like built-in Wi-Fi and/or Bluetooth.  They have a number of different product lines, including the Republic of Gamers motherboard line for really high-end builds.

Gigabyte – Gigabyte has a reputation for rock solid reliability, which anecdotally I can verify, as I own a few of their boards myself.  VRM quantity and quality over their range of boards is very much in line with ASUS offerings (if not better).  Gigabyte has generally solid layouts (with some odd choices at times) though their board lineup can be tough to navigate due to similar model numbers (like UD3 vs. UD3R vs. UD3H).  Gigabyte generally stays a bit more conservative than ASUS with fancy tech and gadgetry, though they have gone whole hog on including mSATA slots on their boards for cache drives.  Instead of stuff like onboard Wi-Fi, you generally get a larger and more comprehensive set of ports.

MSI
– MSI is my least favorite of the “Big 3” motherboard manufacturers.  Much of this opinion is probably lingering prejudice related to their AM3 boards and some questionable decisions in some of their P67-based boards.  MSI has recently been pushing Thunderbolt onto some of their higher-end offerings.  Their current offerings are very competitive, and while I might prefer ASUS or Gigabyte myself, there’s really no good reason not to consider MSI at the moment.

ASRock – ASRock sprang out of ASUS spinning off a company specifically to make budget motherboards.  They’re generally considered a “budget” manufacturer, but their Sandy Bridge offerings were very strong, with good VRMs in their enthusiast level boards, and solid layouts.  Those same enthusiast offerings also set themselves apart with very aggressive pricing and solid accessory sets.  Their Ivy Bridge offerings have continued that trend.  The documentation and BIOS/UEFI interfaces aren’t as polished as their higher-end competitors, but if you can deal with that, you can often get a really nice deal.

Beyond manufacturer, you should take into account the following criteria (along with price, naturally) when choosing a board:

Form Factor:  Be aware of the motherboard form factor, it’s crucial in ensuring compatibility with your case.

SLI/Crossfire capability:  This generally comes at a price premium, but if you’re genuinely going to take advantage of the capability, it’s worth the money.  If you are certain that you want a single card system, and have no plans to either add a second card in the future, or have 2 cards to start with, do not pay the premium.  And be realistic with yourself about the possibility of upgrading with a second card as well.  However, if you have the budget, and do think it’s a possibility, spend the money, you won’t regret it.

The basic requirement for SLI is 2 physical PCI-E x16 slots, which run at least at x8/x8 when both are populated.  Crossfire can run on 2 physical x16 slots that run at x16 and x4, but performance is compromised and I wouldn’t recommend it, at least x8/x8 is your best bet.  Higher end motherboards (or motherboards on higher-end sockets) may support multiple x16 slots running at a full x16.  For 2-way SLI/Crossfire, x8/x8 on PCI-E 2.0 is enough bandwidth to avoid throttling all but the highest-end of last-gen cards (and even then the performance loss is minimal).  I'd recommend a board and processor that are fully compatible with PCI-E 3.0 if you want to run multiple high-end cards from the current generation of GPUs.

VRMs:  The VRM system in your motherboard is the system that takes power from the PSU and converts it to the correct voltage to be utilized by the CPU and GPU.  If you see stuff like “12+2 power phases” being tossed about, that’s referring to the VRM system of your motherboard.  Basically the VRMs are small transformers that convert the +12V from your PSU into the correct voltages to run your stuff.  Phases refer to the number of transformers, the more you have, the lower the individual load on each transformer, which means a more stable, long-lasting board, especially when overclocking.  If you’re pushing things, poor quality/too few VRMs can mean catastrophic damage to the motherboard, and perhaps other parts as well.  For Sandy Bridge/Ivy Bridge, I would consider 6+2 to be adequate for reasonable overclocking, with 8+2 desired and anything above that being gravy.

Physical layout:  This is pretty important, especially in this age of double-wide GPUs and SLI/Crossfire setups.  For SLI/Crossfire motherboards, you want at least an additional expansion slot’s worth of space between PCI-E x16 slots in order to accommodate 2-slot GPU coolers.  For motherboards supporting only 2 GPUs, I’d recommend looking for 2 slots worth of space between, to give the top card some breathing room.  SATA ports should be either of the 90 degree variety, or placed to ensure they won’t be covered by longer graphics cards.  Front panel, audio and USB headers should be located along the edge of the board, easily accessible and away from any potential conflict with expansion cards.  Keep an eye on stuff like CPU socket positioning relative to DIMM slots, and the size and positioning of heatsinks on the motherboard.  Manufacturers are generally very good about avoiding those conflicts, but depending on heatsink size and layout you can sometimes have trouble mounting aftermarket CPU cooling.

BIOS/UEFI:  If you're looking at an overclocked system, you'll want a nice, full-featured BIOS/UEFI.  Some budget boards (even from otherwise high-end manufacturers) have taken to removing deeper, more complex customization options, and some manufacturers have very poorly put together interfaces, with nonsensical descriptions and confusing layouts.  Obviously, you'd like to avoid those if possible, so make sure to take a look at some reviews to see if you can't get an idea of what you'll be looking at.

Features and Documentation:  This is more nebulous, as it’s entirely up to your own discretion.  Each builder has different needs in terms of feature-set (quantity/type of ports, additional bells and whistles like Bluetooth, etc.).  Certain boards will come with automatic or software assisted overclocking options that other boards lack.  Do your research here, and choose the board that includes everything you need/want.  Similarly, some builders will need and/or want clear, comprehensive documentation of board features and installation, while others may be comfortable without it.

As for individual recommendations, I'll keep it fairly simple.  For basic builds (using Pentium/Celeron chips) go with the ASRock H77M.  For mid-range builds (using a Core i3 or non-K Core i5) go with the Intel DH77EB.  For high end builds (using Core i5 2500K or 3570K) go with the Gigabyte Z77X-UD3H.  If you need something fancier, or more esoteric, feel free to PM me or ask in the thread.