Security updates have been issued by Debian (chromium-browser, krb5, and smarty3), Fedora (firefox, GraphicsMagick, and moodle), Mageia (rsync), openSUSE (bind, chromium, freeimage, gd, GraphicsMagick, libtasn1, libvirt, nodejs6, php7, systemd, and webkit2gtk3), Red Hat (chromium-browser, systemd, and thunderbird), Scientific Linux (systemd), and Ubuntu (curl, firefox, and ruby2.3).
Security updates have been issued by Arch Linux (dnsmasq, libmupdf, mupdf, mupdf-gl, mupdf-tools, and zathura-pdf-mupdf), CentOS (kernel), Debian (smarty3, thunderbird, and unbound), Fedora (bind, bind-dyndb-ldap, coreutils, curl, dnsmasq, dnsperf, gcab, java-1.8.0-openjdk, libxml2, mongodb, poco, rubygem-rack-protection, transmission, unbound, and wireshark), Red Hat (collectd, erlang, and openstack-nova), SUSE (bind), and Ubuntu (clamav and webkit2gtk).
Security updates have been issued by Arch Linux (curl, lib32-curl, lib32-libcurl-compat, lib32-libcurl-gnutls, libcurl-compat, libcurl-gnutls, and rsync), Debian (curl), Fedora (clamav and java-1.8.0-openjdk), openSUSE (apache2), Oracle (kernel), and Ubuntu (linux-kvm and thunderbird).
Security updates have been issued by Arch Linux (glibc, lib32-glibc, and zziplib), Debian (clamav, ffmpeg, thunderbird, tiff, tiff3, and wireshark), Fedora (firefox, mingw-libtasn1, and webkitgtk4), Gentoo (fossil), Mageia (webkit2), openSUSE (chromium, clamav, and thunderbird), and SUSE (clamav and kernel).
Security updates have been issued by Debian (awstats, gdk-pixbuf, plexus-utils, and plexus-utils2), Fedora (asterisk, gimp, heimdal, libexif, linux-firmware, mupdf, poppler, thunderbird, webkitgtk4, wireshark, and xrdp), openSUSE (diffoscope, irssi, and qemu), SUSE (java-1_7_0-ibm, kernel-firmware, and qemu), and Ubuntu (irssi, kernel, linux, linux-aws, linux-euclid, linux-kvm, linux-hwe, linux-azure, linux-gcp, linux-oem, linux-lts-trusty, linux-lts-xenial, linux-lts-xenial, linux-aws, linux-raspi2, ruby1.9.1, ruby2.3, and sssd).
Security updates have been issued by Arch Linux (graphicsmagick and linux-lts), CentOS (thunderbird), Debian (kernel, opencv, php5, and php7.0), Fedora (electrum), Gentoo (libXfont), openSUSE (gimp, java-1_7_0-openjdk, and libvorbis), Oracle (thunderbird), Slackware (irssi), SUSE (kernel, kernel-firmware, and kvm), and Ubuntu (awstats, nvidia-graphics-drivers-384, python-pysaml2, and tomcat7, tomcat8).
Security updates have been issued by Arch Linux (linux-hardened, linux-lts, linux-zen, and mongodb), Debian (gdk-pixbuf, gifsicle, graphicsmagick, kernel, and poppler), Fedora (dracut, electron-cash, and firefox), Gentoo (backintime, binutils, chromium, emacs, libXcursor, miniupnpc, openssh, optipng, and webkit-gtk), Mageia (kernel, kernel-linus, kernel-tmb, openafs, and python-mistune), openSUSE (clamav-database, ImageMagick, kernel-firmware, nodejs4, and qemu), Red Hat (linux-firmware, ovirt-guest-agent-docker, qemu-kvm-rhev, redhat-virtualization-host, rhev-hypervisor7, rhvm-appliance, thunderbird, and vdsm), Scientific Linux (thunderbird), SUSE (kernel and qemu), and Ubuntu (firefox and poppler).
Security updates have been issued by Debian (asterisk, gimp, thunderbird, and wireshark), Fedora (global, python-mistune, and thunderbird-enigmail), Mageia (apache, bind, emacs, ffmpeg, freerdp, gdk-pixbuf2.0, gstreamer0.10-plugins-bad/gstreamer1.0-plugins-bad, gstreamer0.10-plugins-ugly, gstreamer0.10-plugins-ugly/gstreamer1.0-plugins-ugly, gstreamer1.0-plugins-bad, heimdal, icu, ipsec-tools, jasper, kdebase4-runtime, ldns, libvirt, mupdf, ncurses, openjpeg2, openssh, python/python3, ruby, ruby-RubyGems, shotwell, thunderbird, webkit2, and X11 client libraries), openSUSE (gdk-pixbuf and phpMyAdmin), and SUSE (java-1_7_1-ibm).
Security updates have been issued by Debian (imagemagick, mercurial, and thunderbird), Fedora (asterisk, libexif, python-mistune, sensible-utils, shellinabox, and webkitgtk4), Mageia (glibc, kernel-firmware, and phpmyadmin), and openSUSE (global).
Security updates have been issued by Debian (enigmail, gimp, irssi, kernel, rsync, ruby1.8, and ruby1.9.1), Fedora (json-c and kernel), Mageia (libraw and transfig), openSUSE (enigmail, evince, ImageMagick, postgresql96, python-PyJWT, and thunderbird), Slackware (mozilla), and SUSE (evince).
2017 has been a busy year for Backblaze. We’ve reached a total of over 400 petabytes of data stored for our customers — that’s a lot!, released a major upgrade to our backup product — Backblaze Cloud Backup 5.0, added Groups to our consumer and business backup products, further enhanced account security, and welcomed a whole lot of new customers to Backblaze.
Blazing Power Tips for Backblaze Backup
Back Up All of Your Valuable Data
Include Directly-Attached External Drives in Your Backup
Backblaze can back up external drives attached via USB, Thunderbolt, or Firewire.
Back Up Virtual Machines Installed on Your Computer
Virtual machines, such as those created by Parallels, VMware Fusion, VirtualBox, Hyper-V, or other programs, can be backed up with Backblaze.
You Can Back Up Your Mobile Phone to Backblaze
Gain extra peace-of-mind by backing up your iPhone or Android phone to your computer and including that in your computer backup.
Bring on Your Big Files
By default, Backblaze has no restrictions on the size of the files you are backing up, even that large high school reunion video you want to be sure to keep.
Rescan Your Hard Drive to Check for Changes
Backblaze works quietly and continuously in the background to keep you backed up, but you can ask Backblaze to immediately check whether anything needs backing up by holding down the Alt key and clicking on the Restore Options button in the Backblaze client.
Manage and Restore Your Backed Up Files
You Can Share Files You’ve Backed Up
You can share files with anyone directly from your Backblaze account.
Select and Restore Individual Files
You can restore a single file without zipping it using the Backblaze web interface.
Receive Your Restores from Backblaze by Mail
You have a choice of how to receive your data from Backblaze. You can download individual files, download a ZIP of the files you choose, or request that your data be shipped to you anywhere in the world via FedEx.
Put Your Account on Hold for Six Months
As long as your account is current, all the data you’ve backed up is maintained for up to six months if you’re traveling or not using your computer and don’t connect to our servers. (For active accounts, data is maintained up to 30 days.)
Groups Make Managing Business or Family Members Easy
You Can Browse and Restore Previous Versions of a File
Visit the View/Restore Files page to go back in time to earlier or deleted versions of your files.
Mass Deploy Backblaze Remotely to Many Computers
Companies, organizations, schools, non-profits, and others can deploy Backblaze computer backup remotely across all their computers without any end-user interaction.
Move Your Account and Preserve Backups on a New or Restored Computer
You can move your Backblaze account to a new or restored computer with the same data — and preserve the backups you have already completed — using the Inherit Backup State feature.
Reinstall Backblaze under a Different Account
Backblaze remembers the account information when it is uninstalled and reinstalled. To install Backblaze under a different account, hold down the ALT key and click the Install Now button.
Keep Your Data Secure
Protect Your Account with Two-Factor Verification
You can (and should) protect your Backblaze account with two-factor verification. You can use backup codes and SMS verification in case you lose access to your smartphone and the authentication app. Sign in to your account to set that up.
Add Additional Security to Your Data
All transmissions of your data between your system and our servers is encrypted. For extra account security, you can add an optional private encryption key (PEK) to the data on our servers. Just be sure to remember your encryption key because it’s required to restore your data.
Get the Best Data Transfer Speeds
How Fast is your Connection to Backblaze?
You can check the speed and latency of your internet connection between your location and Backblaze’s data centers at https://www.backblaze.com/speedtest/.
Fine-Tune Your Upload Speed with Multiple Threads
Our auto-threading feature adjusts Backblaze’s CPU usage to give you the best upload speeds, but for those of you who like to tinker, the Backblaze client on Windows and Macintosh lets you fine-tune the number of threads our client is using to upload your files to our data centers.
Use the Backblaze Downloader To Get Your Restores Faster
Want to Learn More About Backblaze Backup?
Do you have a friend who should be backing up, but doesn’t? Why not give the gift of Backblaze?
The Mozilla Thunderbird Blog looks
at recent releases of the Thunderbird email client, including a fifth
point release for version 52 ESR and 58 beta. “Thunderbird 57 beta
was also very successful. While Thunderbird 58 is equally stable and offers
further cutting-edge improvements to Thunderbird users, the user community
is starting to feel the impact of Mozilla platform changes which are
phasing out so-called legacy add-ons. The Thunderbird technical leadership
is working closely with add-on authors who face the challenge of updating
their add-ons to work with the Mozilla interface changes. With a few
usually simple changes most add-ons can be made to work in Thunderbird 58
explains what needs to be done, and Thunderbird developers are happy to
lend a hand to add-on authors.” The project has also added four new
Security updates have been issued by Debian (chromium-browser, evince, pdns-recursor, and simplesamlphp), Fedora (ceph, dhcp, erlang, exim, fedora-arm-installer, firefox, libvirt, openssh, pdns-recursor, rubygem-yard, thunderbird, wordpress, and xen), Red Hat (rh-mysql57-mysql), SUSE (kernel), and Ubuntu (openssl).
Security updates have been issued by CentOS (postgresql), Debian (firefox-esr, kernel, libxcursor, optipng, thunderbird, wireshark, and xrdp), Fedora (borgbackup, ca-certificates, collectd, couchdb, curl, docker, erlang-jiffy, fedora-arm-installer, firefox, git, linux-firmware, mupdf, openssh, thunderbird, transfig, wildmidi, wireshark, xen, and xrdp), Mageia (firefox and optipng), openSUSE (erlang, libXfont, and OBS toolchain), Oracle (kernel), Slackware (openssl), and SUSE (kernel and OBS toolchain).
Security updates have been issued by CentOS (firefox, java-1.7.0-openjdk, kernel, liblouis, qemu-kvm, sssd, and thunderbird), Debian (heimdal and nova), openSUSE (shibboleth-sp), Oracle (java-1.7.0-openjdk), Red Hat (Red Hat OpenShift Enterprise), Scientific Linux (openafs), SUSE (kernel), and Ubuntu (rsync).
Security updates have been issued by Debian (libextractor), Fedora (java-9-openjdk, kernel, python, and qt5-qtwebengine), Oracle (sssd and thunderbird), Red Hat (firefox, liblouis, and sssd), Scientific Linux (firefox, liblouis, and sssd), and Ubuntu (libxml2).
Security updates have been issued by Arch Linux (cacti, curl, exim, lib32-curl, lib32-libcurl-compat, lib32-libcurl-gnutls, lib32-libxcursor, libcurl-compat, libcurl-gnutls, libofx, libxcursor, procmail, samba, shadowsocks-libev, and thunderbird), Debian (tor), Fedora (kernel, moodle, mupdf, python-sanic, qbittorrent, qpid-cpp, and rb_libtorrent), Mageia (git, lame, memcached, nagios, perl-Catalyst-Plugin-Static-Simple, php-phpmailer, shadowsocks-libev, and varnish), openSUSE (binutils, libressl, lynx, openssl, tor, wireshark, and xen), Red Hat (thunderbird), Scientific Linux (kernel, qemu-kvm, and thunderbird), SUSE (kernel, ncurses, openvpn-openssl1, and xen), and Ubuntu (curl, evince, and firefox).
Security updates have been issued by Debian (curl, libxml2, optipng, and sox), Fedora (kernel, mediawiki, moodle, nodejs-balanced-match, nodejs-brace-expansion, and python-werkzeug), openSUSE (optipng), Oracle (kernel and qemu-kvm), Red Hat (kernel, kernel-rt, qemu-kvm, and qemu-kvm-rhev), SUSE (kernel), and Ubuntu (thunderbird).
Post Syndicated from Roderick Bauer original https://www.backblaze.com/blog/managing-digital-photos-and-videos/
NAS + CLOUD GIVEAWAY FROM MORRO DATA AND BACKBLAZE
Backblaze and Morro Data have teamed up to offer a hardware and software package giveaway that combines the best of NAS and the cloud for managing your photos and videos. You’ll find information about how to enter this promotion at the end of this post.
Whether you’re a serious amateur photographer, an Instagram fanatic, or a professional videographer, you’ve encountered the challenge of accessing, organizing, and storing your growing collection of digital photos and videos. The problems are similar for both amateur and professional — they vary chiefly in scale and cost — and the choices for addressing this challenge increase in number and complexity every day.
In this post we’ll be talking about the basics of managing digital photos and videos and trying to define the goals for a good digital asset management system (DAM). There’s a lot to cover, and we can’t get to all of it in one post. We will write more on this topic in future posts.
To start off, what is digital asset management (DAM)? In his book, The DAM Book: Digital Asset Management for Photographers, author Peter Krogh describes DAM as a term that refers to your entire digital photography ecosystem and how you work with it. It comprises the choices you make about every component of your digital photography practice.
Anyone considering how to manage their digital assets will need to consider the following questions:
- How do I like to work, and need to work if I have clients, partners, or others with whom I need to cooperate?
- What are the software and hardware options I need to consider to set up an efficient system that suits my needs?
- How do DAS (direct-attached storage), NAS (network-attached storage), the cloud, and other storage solutions fit into a working system?
- Is there a difference between how and where I back up and archive my files?
- How do I find media files in my collection?
- How do I handle a digital archive that just keeps growing and growing?
- How do I make sure that the methods and system I choose won’t lock me into a closed-end, proprietary system?
Tell us what you’re using for digital media management
Earlier this week we published a post entitled What’s the Best Solution for Managing Digital Photos and Videos? in which we asked our readers to tell us how they manage their media files and what they would like to have in an ideal system. We’ll write a post after the first of the year based on the replies we receive. We encourage you to visit this week’s post and contribute your comments to the conversation.
Getting Started with Digital Asset Management
Whether you have hundreds, thousands, or millions of digital media files, you’re going to need a plan on how to manage them. Let’s start with the goals for what a good digital media management plan should look like.
Goals of a Good Digital Media Management System
- 1) Don’t lose your files
- At the very least, your system should preserve files you wish to keep for future use. A good system will be reliable, support maintaining multiple copies of your data, and will integrate well with your data backup strategy. You should analyze each step of how you handle your cameras, memory cards, disks, and other storage media to understand the points at which your data is most vulnerable and how to minimize the possibility of data loss.
- 2) Find media when you need it
- Your system should enable you to find files when you need them.
- 3) Work economically
- You want a system that meets your budget and doesn’t waste your time.
- 4) Edit or Enhance the images or video
- You’ll want the ability to make changes, change formats, and repurpose your media for different uses.
- 5) Share media in ways you choose
- A good system will help you share your files with clients, friends, and family, giving you choices of different media, formats, and control over access and privacy.
- 6) Doesn’t lock your media into a proprietary system
- Your system shouldn’t lock you into file formats, proprietary protocols, or make it difficult or impossible to get your media out of a particular vendor’s environment. You want a system that uses common and open formats and protocols to maintain the compatibility of your media with as yet unknown hardware and software you might want to use in the future.
Media Storage Options
Photographers and videographers differ in aspects of their workflow, and amateurs and professionals have different needs and options, but there are some common elements that are typically found in a digital media workflow:
- Data is collected in a digital camera
- Data is copied from the camera to a computer, a transport device, or a storage device
- Data is brought into a computer system where original files are typically backed up and copies made for editing and enhancement (depending on type of system)
- Data files are organized into folders, and metadata added or edited to aid in record keeping and finding files in the future
- Files are edited and enhanced, with backups made during the process
- File formats might be changed manually or automatically depending on system
- Versions are created for client review, sharing, posting, publishing, or other uses
- File versions are archived either manually or automatically
- Files await possible future retrieval and use
These days, most of our digital media devices have multiple options for getting the digital media out of the camera. Those options can include Wi-Fi, direct cable connection, or one of a number of types and makes of memory cards. If your digital media device of choice is a smartphone, then you’re used to syncing your recent photos with your computer or a cloud service. If you sync with Apple Photos/iCloud or Google Photos, then one of those services may fulfill just about all your needs for managing your digital media.
If you’re a serious amateur or professional, your solution is more complex. You likely transfer your media from the camera to a computer or storage device (perhaps waiting to erase the memory cards until you’re sure you’ve safely got multiple copies of your files). The computer might already contain your image or video editing tools, or you might use it as a device to get your media back to your home or studio.
If you’ve got a fast internet connection, you might transfer your files to the cloud for safekeeping, to send them to a co-worker so she can start working on them, or to give your client a preview of what you’ve got. The cloud is also useful if you need the media to be accessible from different locations or on various devices.
If you’ve been working for a while, you might have data stored in some older formats such as CD, DVD, DVD-RAM, Zip, Jaz, or other format. Besides the inevitable degradation that occurs with older media, just finding a device to read the data can be a challenge, and it doesn’t get any easier as time passes. If you have data in older formats that you wish to save, you should transfer and preserve that data as soon as possible.
Let’s address the different types of storage devices and approaches.
Direct-attached Storage (DAS)
DAS includes any type of drive that is internal to your computer and connected via the host bus adapter (HBA), and using a common bus protocol such as ATA, SATA, or SCSI; or externally connected to the computer through, for example, USB or Thunderbolt.
Solid-state drives (SSD) are popular these days for their speed and reliability. In a system with different types of drives, it’s best to put your OS, applications, and video files on the fastest drive (typically the SSD), and use the slower drives when speed is not as critical.
A DAS device is directly accessible only from the host to which the DAS is attached, and only when the host is turned on, as the DAS incorporates no networking hardware or environment. Data on DAS can be shared on a network through capabilities provided by the operating system used on the host.
DAS can include a single drive attached via a single cable, multiple drives attached in a series, or multiple drives combined into a virtual unit by hardware and software, an example of which is RAID (Redundant Array of Inexpensive [or Independent] Disks). Storage virtualization such as RAID combines multiple physical disk drive components into one or more logical units for the purposes of data redundancy, performance improvement, or both.
Network-attached Storage (NAS)
A popular option these days is the use of network-attached storage (NAS) for storing working data, backing up data, and sharing data with co-workers. Compared to general purpose servers, NAS can offer several advantages, including faster data access, easier administration, and simple configuration through a web interface.
Users have the choice of a wide number of NAS vendors and storage approaches from vendors such as Morro Data, QNAP, Synology, Drobo, and many more.
NAS uses file-based protocols such as NFS (popular on UNIX systems), SMB/CIFS (Server Message Block/Common Internet File System used with MS Windows systems), AFP (used with Apple Macintosh computers), or NCP (used with OES and Novell NetWare). Multiple protocols are often supported by a single NAS device. NAS devices frequently include RAID or similar capability, providing virtualized storage and often performance improvements.
NAS devices are popular for digital media files due to their large capacities, data protection capabilities, speed, expansion options through adding more and bigger drives, and the ability to share files on a local office or home network or more widely on the internet. NAS devices often include the capability to back up the data on the NAS to another NAS or to the cloud, making them a great hub for a digital media management system.
The cloud is becoming increasingly attractive as a component of a digital asset management system due to a number of inherent advantages:
- Cloud data centers employ redundant technologies to protect the integrity of the stored data
- Data stored in the cloud can be shared, if desired
- Cloud storage is limitless, as opposed to DAS and most NAS implementations
- Cloud storage can be accessed through a wide range of interfaces, and APIs (Application Programming Interfaces), making cloud storage extremely flexible
- Cloud storage supports an extensive ecosystem of add-on hardware, software, and applications to enhance your DAM. Backblaze’s B2 Cloud Storage, for example, has a long list of integrations with media-oriented partners such as Axle video, Cantemo, Cubix, and others
Anyone working with digital media will tell you that the biggest challenge with the cloud is the large amount of data that must be transferred to the cloud, especially if someone already has a large library of media that exists on drives that they want to put into the cloud. Internet access speeds are getting faster, but not fast enough for users like Drew Geraci (known for his incredible time lapse photography and other work, including the opening to Netflix’s House of Cards), who told me he can create one terabyte of data in just five minutes when using nine 8K cameras simultaneously.
While we wait for everyone to get 10GB broadband transfer speeds, there are other options, such as Backblaze’s Fireball, which enables B2 Cloud Storage users to copy up to 40TB of data to a drive and send it directly to Backblaze.
There are technologies available that can accelerate internet TCP/IP speeds and enable faster data transfers to and from cloud storage such as Backblaze B2. We’ll be writing about these technologies in a future post.
A recent entry into the storage space is Morro Data and their CloudNAS solution. Files are stored in the cloud, cached locally on a CloudNAS device as needed, and synced globally among the other CloudNAS systems in a given organization. To the user, all of their files are listed in one catalog, but they could be stored locally or in the cloud. Another advantage is that uploads to the cloud are done behind the scenes as time and network permit. A file stays local until such time as it it safely stored in the B2 Cloud then it is removed from the CloudNAS device, depending on how often it is accessed. There are more details on the CloudNAS solution in our A New Twist on Data Backup: CloudNAS blog post. (See below for how to enter our Backblaze/Morro Data giveaway.)
Cataloging and Searching Your Media
A key component of any DAM system is the ability to find files when you need them. You’ll want the ability to catalog all of your digital media, assign keywords and metadata that make sense for the way you work, and have that catalog available and searchable even when the digital files themselves are located on various drives, in the cloud, or even disconnected from your current system.
Adobe’s Lightroom is a popular application for cataloging and managing image workflow. Lightroom can handle an enormous number of files, and has a flexible catalog that can be stored locally and used to search for files that have been archived to different storage devices. Users debate whether one master catalog or multiple catalogs are the best way to work in Lightroom. In any case, it’s critical that you back up your DAM catalogs as diligently as you back up your digital media.
The latest version of Lightroom, Lightroom CC (distinguished from Lightroom CC Classic), is coupled with Adobe’s Creative Cloud service. In addition to the subscription plan for Lightroom and other Adobe Suite applications, you’ll need to choose and pay a subscription fee for how much storage you wish to use in Adobe’s Creative Cloud. You don’t get a choice of other cloud vendors.
Another popular option for image editing is Phase One Capture One, and Phase One Media Pro SE for cataloging and management. Macphun’s Luminar is available for both Macintosh and Windows. Macphun has announced that will launch a digital asset manager component for Luminar in 2018 that will compete with Adobe’s offering for a complete digital image workflow.
Peter Krogh’s book, The DAM Book: Digital Asset Management for Photographers, and his other books on using Lightroom for DAM, outline an approach for creating a folder hierarchy, assigning keywords and metadata, and using collections to manage your photos. You can view a YouTube video on his recommendations at Get Your DAM Workflow Under Control with Peter Krogh.
Working with Your Media
Any media management system needs to include or work seamlessly with the editing and enhancement tools you use for photos or videos. We’re already talked about some cataloging solutions that include image editing, as well. Some of the mainstream photo apps, such as Google Photos and Apple Photos include rudimentary to mid-level editing tools. It’s up to the more capable applications to deliver the power needed for real photo or video editing, e.g. Adobe Photoshop, Adobe Lightroom, Macphun’s Luminar, and Phase One Capture One for photography, and Adobe Premiere, AppleFinal Cut Pro, or Avid Media Composer (among others) for video editing.
Ensuring Future Compatibility for Your Media
Images come out of your camera in a variety of formats. Camera makers have their proprietary raw file formats (CR2 from Canon, NEF from Nikon, for example), and Adobe has a proprietary, but open, standard for digital images called DNG (Digital Negative) that is used in Lightroom and products from other vendors, as well.
Whichever you choose, be aware that you are betting that whichever format you use will be supported years down the road when you go back to your files and want to open a file with whatever will be your future photo/video editing setup. So always think of the future and consider the solution that is most likely to still be supported in future applications.
There are myriad aspects to a digital asset management system, and as we said at the outset, many choices to make. We hope you’ll take us up on our request to tell us what you’re using to manage your photos and videos and what an ideal system for you would look like. We want to make Backblaze Backup and B2 Cloud Storage more useful to our customers, and your input will help us do that.
In the meantime, why not enter the Backblaze + Morro Data Promotion described below. You could win!
ENTER TO WIN A DREAM DIGITAL MEDIA COMBO
Morro Data and Backblaze Team Up to Deliver the Dream Digital Media Backup Solution
Visit Dream Photo Backup to learn about this combination of NAS, software, and the cloud that provides a complete solution for managing, archiving, and accessing your digital media files. You’ll have the opportunity to win Morro Data’s CacheDrive G40 (with 1TB of HDD cache), an annual subscription to CloudNAS Basic Global File Services, and $100 of Backblaze B2 Cloud Storage. The total value of this package is greater than $700. Enter at Dream Photo Backup.
The post An Introduction to Managing Digital Photos and Videos appeared first on Backblaze Blog | Cloud Storage & Cloud Backup.
Security updates have been issued by Debian (bzr and exim4), Mageia (ghostscript, libtiff, mediawiki, postgresql, thunderbird, and vlc), openSUSE (kernel-firmware and samba), Oracle (samba4), SUSE (xen), and Ubuntu (exim4, libxcursor, and libxfont, libxfont1, libxfont2).