Vulnerabilities / Threats // Insider Threats
6/24/2013
12:29 PM
George Crump
George Crump
Commentary
Connect Directly
RSS
E-Mail
50%
50%

Should You Use Software-Defined Flash Storage?

"Software definition" leverages the processor's power to do things that used to require dedicated hardware. So, what does that mean for flash?

Have you noticed how everyone seems to be adding the words "software-defined" to their market term? In some cases this is just marketing gone wild. In other cases it is an appropriate description of the technology. We have software-defined storage, software-defined networking and the software-defined data center. I expect to hear to a CEO describe their entire organization as "software defined" any day now.

All this software definition is changing how technologies are developed. An excellent example is flash-based storage.

What Is Software Definition?

The use (and overuse) of the term software-defined is really about leveraging the power of the Intel CPU to do things in software that we used to do with dedicated hardware. Doing so should reduce costs and increase flexibility. As I described in my last column, "How Software-Defined Storage Impacts SSD," it can even help with adoption of hardware, like flash media and appliances.

Software-Defined Flash

The value of software definition is now working its way into the flash community and is the subject of much debate. The flash controller performs a variety of management functions that extend the life of the media and improve performance. Typically this flash intelligence is embedded as silicon or a field programmable gate array (FPGA), but now some flash vendors are starting to perform these management functions using the CPU of the host or storage system that the device is being installed on.

[ For more on software-defined storage, see Software-Defined Storage Vs. Traditional Storage Systems. ]

The upside of this method should be more rapid deployment of capabilities and functionality. It should also lead to lower development cost for the vendor. In theory this should lead to less-expensive products that are more feature rich. We have not, for the most part, seen this theory translate to reality. Most flash systems and devices that count on host CPUs to perform management functions are the same price as hardware-based flash systems and typically are at feature parity.

The other potential advantage of software-based flash management is that as you upgrade the CPU in the host you could see better flash performance. How much of this is reality is dependent on your application and whether you will actually carry your SSD investment between generations of servers as you upgrade them. In our experience this is not the case.

The downside of counting on the host CPU to execute the flash management functions is that it could impact flash and/or host performance when under stress. While the vendors that perform their flash management in hardware make a big deal about this potential problem, we have not seen a situation where it is apparent. As most IT professionals know, there is plenty of excess CPU resources in the typical data center today. Burning a few of those cycles on flash management routines should not be a major problem for most.

Should You Use Software-Defined Flash?

This is, at least right now, one of those situations where "it depends" doesn't apply. More appropriately, at least for right now, in most data centers it doesn't matter. You need to judge the flash device or storage system on its total merits. Does it deliver the performance you need, with a feature set you can live with at a price you can afford? While the advantages of hardware-based flash management or software-based management may become more apparent in the future, at least for today they are a wash.

Comment  | 
Print  | 
More Insights
Register for Dark Reading Newsletters
Partner Perspectives
What's This?
In a digital world inundated with advanced security threats, Intel Security seeks to transform how we live and work to keep our information secure. Through hardware and software development, Intel Security delivers robust solutions that integrate security into every layer of every digital device. In combining the security expertise of McAfee with the innovation, performance, and trust of Intel, this vision becomes a reality.

As we rely on technology to enhance our everyday and business life, we must too consider the security of the intellectual property and confidential data that is housed on these devices. As we increase the number of devices we use, we increase the number of gateways and opportunity for security threats. Intel Security takes the “security connected” approach to ensure that every device is secure, and that all security solutions are seamlessly integrated.
Featured Writers
White Papers
Cartoon
Current Issue
Dark Reading's October Tech Digest
Fast data analysis can stymie attacks and strengthen enterprise security. Does your team have the data smarts?
Flash Poll
Video
Slideshows
Twitter Feed
Dark Reading - Bug Report
Bug Report
Enterprise Vulnerabilities
From DHS/US-CERT's National Vulnerability Database
CVE-2013-3304
Published: 2014-10-30
Directory traversal vulnerability in Dell EqualLogic PS4000 with firmware 6.0 allows remote attackers to read arbitrary files via a .. (dot dot) in the default URI.

CVE-2013-7409
Published: 2014-10-30
Buffer overflow in ALLPlayer 5.6.2 through 5.8.1 allows remote attackers to cause a denial of service (crash) and possibly execute arbitrary code via a long string in a .m3u (playlist) file.

CVE-2014-3446
Published: 2014-10-30
SQL injection vulnerability in wcm/system/pages/admin/getnode.aspx in BSS Continuity CMS 4.2.22640.0 allows remote attackers to execute arbitrary SQL commands via the nodeid parameter.

CVE-2014-3584
Published: 2014-10-30
The SamlHeaderInHandler in Apache CXF before 2.6.11, 2.7.x before 2.7.8, and 3.0.x before 3.0.1 allows remote attackers to cause a denial of service (infinite loop) via a crafted SAML token in the authorization header of a request to a JAX-RS service.

CVE-2014-3623
Published: 2014-10-30
Apache WSS4J before 1.6.17 and 2.x before 2.0.2, as used in Apache CXF 2.7.x before 2.7.13 and 3.0.x before 3.0.2, when using TransportBinding, does properly enforce the SAML SubjectConfirmation method security semantics, which allows remote attackers to conduct spoofing attacks via unspecified vect...

Best of the Web
Dark Reading Radio
Archived Dark Reading Radio
Follow Dark Reading editors into the field as they talk with noted experts from the security world.