preservation

Museum of Magnetic Sound Recording – interview with Martin Theophilus

How did the Museum of Magnetic Sound Recording get started, what kind of equipment does it collect and what do they think the future holds for magnetic tape?

Many thanks to Martin for taking time to respond to our questions. If you want to support the Museum of Magnetic Sound Recording’s aim to establish a permanent storage facility you can make a donation here.

Enjoy!

GB: When and how did the Museum of Magnetic Sound Recording get started?

M: The Museum was created in an effort to preserve our vintage recording collection that was initiated in 1998 with the web site Reel2ReelTexas.com. My audio recording began professionally in 1964. Our production switched to video in the early 1990’s. In 1998, the collection began with a gift of an Edison cylinder player from my wife Chris. I missed having the tape recorders around, so we began acquiring the recorders I’d worked with and then several historically significant recorders were secured. One included the first professional magnetic tape recorder built in the US. It is the 1948 Ampex 200A #33 reel to reel tape recorder belonging to Capitol Records. We also have Willie first T-26 Dynavox tape recorder

We have many very first recording devices from: Ampex, Berlant, Brush, Magnecord, Pioneer, Sony, Studer and Teac/Tascam. While there are not many large multi-track recorders, the intent was to display those recording devices that assisted musicians in creating their music. There are now around 225 tape recorders and 100 + vintage classic microphones. in 2012 we decided the collection was of significance and needed to be preserved and made available to the public in a permanent secure facility. We founded the non-profit and acquired a dedicated Board with all original members staying the course with us.

GB: How are you funded and how can people view the collection?

M: Presently the Museum is funded by private donations. At this time we are functioning with volunteers and the collection is available to view on line. By appointment we provide private tours in our Studio/Museum.

GB: What is your favourite piece of (working) equipment and why?

That’s difficult, however it is the Studer A807. It is in excellent condition and is one of the top Studer machines produced. Incidentally they had a wonderful museum saving their history. It disappeared after Harmon took Studer over.

A tour of the Studer tape recorder and mixer ‘museum’ and a company history, recorded in Switzerland before the museum relocated to the Soundcraft Studer HQ in the UK.

GB:What is your favourite piece of (non-working) equipment and why?

M: There has to be two. 1) One would be the Ampex 200A #33 mentioned above. It just needs motor capacitors and will be operating soon. The 200A was overbuilt and weighed 240 lbs. While it originally belonged to Capitol Records, it eventually ended up with the San Francisco engineer/producer Leo De Gar Kulka.  2) The second is the Sony TC-772 half track 15 ips portable location recorder. It too needs motor capacitors. It was able to complete long high quality remote recordings and provided audio limiters, vari-speed and XLR connections. Beautiful design.

GB: What are the challenges of preserving magnetic sound recording? Is there a tension between keeping the machines working, and preserving their appearance as museum exhibits? Do you also seek to preserve the context surrounding the machines, i.e., marketing materials and so forth?

M: We strive to acquire the most complete and working examples of the items in the collection. Several, including another favourite – the Technics RS-1700, was traded up six times before we acquired a showroom quality recorder. The same was true for its dust cover and now both are “as new.” The working units need to be exercised regularly, oiled, heads cleaned and aligned and kept as clean as possible. I can go around the collection one day and everything is working well. The next day there may be a tour and some will always be finicky. The Swiffer duster is a valuable tool to keep the items clean. They are all in air conditioned rooms, but it is Texas and there will be dust.

The things we believe set our collection apart from others are: 1) most units work, are connected to sound systems and can be demonstrated, and 2) for each unit we have acquired and display not only manuals, but also ads, brochures, reviews and posters. All of these are scanned loaded to the web site.

Currently, we have over 1,000 images that are waiting to be processed and added to the site. Additionally, the Museum has most of the radio catalogs (Allied, Burstein Applebee, Lafayette, Olsen, Radio Shack, and more) and magazines (AES Journals, Engineer Producer, Db, Modern Recording, Tape Recorder, etc.) that advertised tape recorders from the 1930’s until they quit publishing. The recorder and microphone sections have also been scanned and added to the website.

GB: What kind of people come to the museum tours? What response do they have the material?

M: Most of the tours we provide are: folks who have been active in the recording industry; professional musicians; other collectors; radio and TV related folks; persons who have viewed the web site and are visiting in the Austin area; students; teachers; and people who are making a donation of a piece of equipment.

The responses have been overwhelming. As are visits to the web site.  We maintain an ongoing web site survey asking if folks support the creation of our permanent public facility.

GB:Do you ever work with audio visual archivists to offer advice about preservation?

M: In the Spring of 2015, University of Texas at Austin’s School of Architecture’s Third Year Interior Design Class completed 11 interior designs for our Museum. One of the students won a $30,000 scholarship with her museum design. In that process, the UT School of Architecture provided significant information regarding preservation practices. The Bob Bullock Texas State History Museum’s Deputy Director, Margaret Koch, has been a supporter and mentor for our museum and provided many recommendations for preservation as we move forward. Just in the past couple of weeks, Peter Hammer, curator of the Ampex Museum prior to its donation to Stanford University, has agreed to provide our museum with preservation practices. Peter also envisions our re-creating the original Ampex Museum within our Museum of Magnetic Sound Recording. While we maintain the collection in a climate controlled studio, we will be more able to adhere to preservation practices when we have a permanent public facility.

GB:What do you see as the future of magnetic sound recording?

M: Magnetic sound recording will hopefully always be preserved and new discoveries integrated into the current knowledge. Magnetic cassettes have recently gained new attention (vinyl too). Maybe reel tape recorders will make a comeback. On our home page we show a new Revox A77 reel tape recorder being built by Akai. Otari still custom produces their classic MX-5050 reel tape recorder.

More importantly, professional recording studios around the globe are finding that many musicians love analogue recordings, so they are retaining, or acquiring analogue recorders. The evolutionary period of magnetic recording beginning in Germany in 1934 to the dawn of digital around 1982, spans an almost fifty year period. While the recording quality of vinyl had evolved and many still consider it of top reproduction quality, the advent of magnetic tape with the ability to edit and reproduce multiple copies was an incredible breakthrough.

GB:Your website is full of amazing information. What is the relationship between the online site and the physical museum?

M: Interesting question, because our intent has always been to provide as much web information as possible (far beyond the physical collection). In our recent conversations with Peter Hammer, the Ampex Museum curator, it is his belief that our preservation work: saving and scanning manuals, ads, catalogs, letters and all the supporting documentation, will actually be more significant than the actual machines themselves. 

Peter states “When I say to people,“Digits last longer than molecules”, that tends to make them think twice about the extreme impermanence of physical collections, especially after I tell them horror stories like the Ampex Museum, the Anna Amalia Library fire in Weimar in 2004, the Cologne City Museum collapse in 2009, and now a new one for me, the sad demise of the Studer collection. Physical collections simply cannot withstand the vagaries of governmental agencies, corporations, private owners, the weather, or seismic stability!”

However, I am still passionate about creating a safe permanent public facility for the collection. There is much to be said for folks being able to actually view and operate a vintage recorder and view the process of making a recording.

GB: Anything else you want to say?

M: We have come to realize that to implement our vision, we will require a major donor who would enable the museum in the long term. We also found that preserving recording technology cannot compete with the museums that are preserving the musicians and their music. The Bob Bullock Texas History Museum considered displaying some of our magnetic recording items when they expanded their Texas music section. However they determined that folks were more likely to visit displays about Texas music. For that reason they went with the history of the Austin City Limits and items from music collections from the Rock ’n Roll Hall of Fame and the Grammy Museum.
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In closing, I thank you for this opportunity you’ve given me to reflect on what our goals are. We have responded to many promising opportunities, received significant verbal support, but have yet to bring the permanent facility to fruition. Due to last year’s heavy production schedule and some folks who did not follow through, I was discouraged. So last October I told our Board that maybe the museum had run its course. However, they would have none of that and encouraged us to push forward. Shortly after that we received a nice donation and I met Peter Hammer who has become an excellent resource who will be providing valuable Ampex documents and preservation consultation. So I feel very positive about our mission and will be happy to keep you posted as we progress.

Posted by debra in audio tape, audio technology, machines, equipment, 4 comments

Happy World Day for Audiovisual Heritage!

World Day for Audiovisual Heritage, which is sponsored by UNESCO and takes place every year on 27 October, is an occasion to celebrate how audio, video and film contribute to the ‘memory of the world.’

The theme for 2016 – ‘It’s your story, don’t lose it!’ – conveys the urgency of audio visual preservation and the important role sound, film and video heritage performs in the construction of cultural identities and heritage.

Greatbear make an important contribution to the preservation of audiovisual heritage.

On one level we offer practical support to institutions and individuals by transferring recordings from old formats to new.

The wider context of Greatbear’s work, however, is preservation: in our Bristol-based studio we maintain old technologies and keep ‘obsolete’ knowledge and skills alive. Our commitment to preservation happens every time we transfer a recording from one format to another.

We work hard to make sure the ‘memory’ of old techniques remain active, and are always happy to share what we learn with the wider audiovisual archiving community.

Skills and Technology

Ray Edmondson points out in Audio Visual Archiving: Philosophy and Principles (2016) that preserving technology and skills is integral to audiovisual archiving:

‘The story of the audiovisual media is told partly through its technology, and it is incumbent on archives to preserve enough of it – or to preserve sufficient documentation about it – to ensure that the story can be told to new generations. Allied to this is the practical need, which will vary from archive to archive, to maintain old technology and the associated skills in a workable state. The experience of (for example) listening to an acoustic phonograph or gramophone, or watching the projection of a film print instead of a digital surrogate, is a valid aspect of public access.’ close up of an edit button on a studer tape machine-great-bear-analogue-digital-media

Edmondson articulates the shifting perceptions within the field of audiovisual archiving, especially in relation to the question of ‘artefact value.’

‘Carriers once thought of and managed as replaceable and disposable consumables’, he writes, ‘are now perceived as artefacts requiring very different understanding and handling.’

Viewing or listening to media in their original form, he suggests, will come to be seen as a ‘specialist archival experience,’ impossible to access without working machines.

Through the maintenance of obsolete equipment the Greatbear studio offers a bridge to such diverse audio visual heritage experiences.

These intangible cultural heritages, released through the playback of media theorist Wolfgang Ernst has called ‘Sonic Time Machines’, are part of our every day working lives.

We rarely ponder their gravity because we remain focused on day to day work: transferring, repairing, collecting and preserving the rich patina of audio visual heritage sent in by our customers.

Happy World Day for Audiovisual Heritage 2016!

Posted by debra in audio / video heritage, audio tape, video tape, 0 comments

Spoking – Treating and Assessing Magnetic Tape

Assessment and treatment is an important part of Greatbear’s audiovisual preservation work. Even before a tape is played back we need to ensure it is in optimum condition. Sometimes it is possible to make a diagnosis through visual assessment alone. A tape we received recently, for example, clearly displayed signs of ‘spoking.’

Spoking is a term used in the AV preservation world to describe the deformation of the tape pack due to improper winding, storage or a badly set up machine. The National Archives describe it as a ‘condition of magnetic tape and motion picture film where excessive pressure caused by shrinkage or too much winding tension eventually causes deformation.’

In our experience ‘spoking’ predominantly occurs with domestic open reel tapes. We have rarely seen problems of this nature with recordings made in professional settings. Compared with professional grade tape, domestic open reel tape was often thinner, making it cheaper to produce and buy.

‘Spoking’ in domestic tape recordings can also be explained by the significant differences in how tape was used in professional and domestic environments.

Domestic tape use was more likely to have an ‘amateur’ flavour. This does not mean that your average consumer did not know what they were doing. Nor were they careless with the media they bought and made. It cannot be denied, however, that your average domestic tape machine would never match the wind-quality of their professional counterparts.

In contrast, the only concern of recording professionals was to make a quality recording using the best tape and equipment. Furthermore, recording practices would be done in a conscientious and standardised manner, according to best industry practice.

Combined, these factors result in a greater number of domestic tapes with winding errors such as cinching, pack-slip and windowing.

Treating Spoking

The majority of ‘spoking’ cases we have seen are in acetate-backed tape which tends to become inflexible – a bit like an extended tape measure – as it ages. The good news is that it is relatively easy to treat tapes suffering from ‘spoking’ through careful – and slow – re-winding.

Slowly winding the tape at a controlled tension, colloquially known as ‘library wind’, helps relieve stress present in the pack. The end result is often a flatter and even wound tape pack, suitable for making a preservation transfer.

Posted by debra in audio tape, 0 comments

SONY’s U-matic video cassette

Introduced by SONY in 1971 U-matic was, according to Jeff Martin, 'the first truly successful videocassette format'.

Philips’ N-1500 video format dominated the domestic video tape market in the 1970s. By 1974 U-matic was widely adopted in industrial and institutional settings. The format also performed a key role in the development of Electronic News Gathering. This was due to its portability, cost effectiveness and rapid integration into programme workflow. Compared with 16mm film U-matic had many strengths.

The design of the U-matic case mimicked a hardback book. Mechanical properties were modelled on the audio cassette's twin spool system.

Like the Philips compact audio cassette developed in the early 1960s, U-matic was a self-contained video playback system. This required minimal technical skill and knowledge to operate.

There was no need to manually lace the video tape through the transport, or even rewind before ejection like SONY's open reel video tape formats, EIAJ 1/2" and 1" Type C. Stopping and starting the tape was immediate, transferring different tapes quick and easy. U-matic ushered in a new era of efficiency and precision in video tape technology.

Mobile news-gathering on U-matic video tape

Emphasising technical quality and user-friendliness was key to marketing U-matic video tape.

As SONY's product brochure states, 'it is no use developing a TV system based on highly sophisticated knowledge if it requires equally sophisticated knowledge to be used'.

'The 'ease of operation' is demonstrated in publicity brochures in a series of images. These guide the prospective user through tape machine interface. The human operator, insulated from the complex mechanical principles making the machine tick only needs to know a few things: how to feed content and direct pre-programmed functions such as play, record, fast forward, rewind and stop.

New Applications

Marketing material for audio visual technology often helps the potential buyer imagine possible applications. This is especially true when a technology is new.

For SONY’s U-matic video tape it was the ‘very flexibility of the system’ that was emphasised. The brochure recounts a story of an oil tanker crew stationed in the middle of the Atlantic.

After they watch a football match the oil workers sit back and enjoy a new health and safety video. ‘More inclined to take the information from a television set,’ U-matic is presented as a novel way to combine leisure and work.

Ultimately ‘the obligation for the application of the SONY U-matic videocassette system lies with the user…the equipment literally speaks for itself.’

International Video Networks

Before the internet arrived, SONY believed video tape was the media to connect global businesses.

'Ford, ICI, Hambro Life, IBM, JCB...what do these companies have in common, apart from their obvious success? Each of these companies, together with many more, have accepted and installed a new degree of communications technology, the U-matic videocassette system. They need international communication capability. Training, information, product briefs, engineering techniques, sales plans…all can be communicated clearly, effectively by means of television'.

SONY heralded videotape's capacity to reach 'any part of the world...a world already revolutionised by television.' Video tape distributed messages in 'words and pictures'. It enabled simultaneous transmission and connected people in locations as 'wide as the world's postal networks.' With appropriate equipment interoperability between different regional video standards - PAL, NTSC and SECAM - was possible.

Video was imagined as a powerful virtual presence serving international business communities. It was a practical money-saving device and effective way to foster inter-cultural communication: 'Why bring 50 salesmen from the field into Head Office, losing valuable working time when their briefing could be sent through the post?'

Preserving U-Matic Video Tape

According the Preservation Self-Assessment Program, U-matic video tape ‘should be considered at high preservation risk’ due to media and hardware obsolescence. A lot of material was recorded on the U-matic format, especially in media and news-gathering contexts. In the long term there is likely to be more tape than working machines.

Despite these important concerns, at Greatbear we find U-matic a comparatively resilient format. Part of the reason for this is the ¾” tape width and the presence of guard bands that are part of the U-matic video signal. Guard bands were used on U-matic to prevent interference or ‘cross-talk’ between the recorded tracks.

In early video tape design guard bands were seen as a waste of tape. Slant azimuth technology, a technique which enabled stripes to be recorded next to each other, was integrated into later formats such as Betamax and VHS. As video tape evolved it became a whole lot thinner.

In a preservation context thinner tape can pose problems. If tape surface is damaged and there is limited tape it is harder to read a signal during playback. In the case of digital tape, damage on a smaller surface can result in catastrophic signal loss. Analogue formats such as U-matic, often fare better, regardless of age.

Paradoxically it would seem that the presence of guard bands insulates the recorded signal from total degradation: because there is more tape there is a greater margin of error to transfer the recorded signal.

Like other formats, such as the SONY EIAJ, certain brands of U-matic tape can pose problems. Early SONY, Ampex and Kodak branded tape may need dehydration treatment ('baked') to prevent shedding during playback. If baking is not appropriate, we tend to digitise in multiple passes, allowing us to frequently intervene to clean the video heads of potentially clogging material. If your U-matic tape smells of wax crayons this is a big indication there are issues. The wax crayon smell seems only to affect SONY branded tape.

Concerns about hardware obsolescence should of course be taken seriously. Early 'top loading' U-matic machines are fairly unusable now.

Mechanical and electronic reliability for 'front loading' U-matic machines such as the BVU-950 remains high. The durability of U-matic machines becomes even more impressive when contrasted with newer machines such as the DVC Pro, Digicam and Digibeta. These tend to suffer relatively frequent capacitor failure.

Later digital video tape formats also use surface-mounted custom-integrated circuits. These are harder to repair at component level. Through-hole technology, used in the circuitry of U-matic machines, make it easier to refurbish parts that are no longer working.

 

Transferring your U-matic Collections

U-matic made video cassette a core part of many industries. Flexible and functional, its popularity endured until the 1990s.

Greatbear has a significant suite of working NTSC/ PAL/ SECAM U-matic machines and spare parts.

Get in touch by email or phone to discuss transferring your collection.

Through-hole technology

Posted by debra in digitisation expertise, video tape, video technology, machines, equipment, 0 comments

Going CD-R-less – digital file-based delivery

Often customers ask us to deliver their transferred sound files on CD, in effect an audio CD-R of the transfer.

Although these recordings can still be high resolution there remains a world of difference—in an archival sense—between a CD-R, burnt on a computer drive (however high the quality of drive and disc), and CD recordings made in the context of the professional music industry.

The CD format is far from ‘obsolete,‘ and recent history has shown us repeatedly that formats deemed ‘dead’, such as vinyl or the audio cassette, can become fashionable again.

Yet when it comes to the preservation of your audio and video archives, it is a good idea to think about this material differently. It is one thing to listen to your favourite artist on CD, in other words, but that precious family recording of your Grandfather discussing his life history on a CD-R is different.

Because of this, we believe that supplying customers with digital files, on hard drive on USB stick is, in 2016 and beyond, a much better option. Holding a recording in physical form in the palm of your hand can be reassuring. Yet if you’ve transferred valuable recordings to ensure you can listen to them once…

Why risk having to do it again?

CD-Rs are, quite simply, not a reliable archival medium. Even optical media that claims spectacular longevity, such as the 1000 year proof M-Disc, are unlikely to survive the warp and weft of technological progress.

Exposure to sunlight can render CD-Rs and DVDs unreadable. If the surface of a CD-R becomes scratched, its readability is severely compromised.

There is also the issue of compatibility between burners and readers, as pointed out in the ARSC Guide to Audio Preservation:

There are standards for CD-R discs to facilitate the interchange of discs between burners and readers. However, there are no standards covering the burners or readers themselves, and the disc standards do not take preservation or longevity into consideration. Several different burning and reading speeds were developed, and earlier discs or burners are not compatible with later, faster speeds. As a result, there is considerable variability in whether any given disc can be read by any given reader (30).

Furthermore, disc drives on computers are becoming less common. It would therefore be unwise to exclusively store valuable recordings on this medium if you want them to have the best chance of long time survival.

In short, the CD-R is just another obsolete format (and an unreliable one at that). Of course, once you have the digital files there is nothing stopping you from making access copies on CD-R for friends and family. Having the digital files as source format gives you greater flexibility to share, store and duplicate your archival material.

File-based preservation

The threat of obsolescence haunts all digital media, to a degree. There is no one easy, catchall solution to preserve the media we produce now which is, almost exclusively, digital.

Yet given the reality of the situation, and the desire people harbour to return to recordings that are important to them, it makes sense that non-experts gain a basic understanding of what digital preservation may entail for them.

There are a growing amount of online resources for people who want to get familiar with the rudiments of personal digital archiving. It would be very difficult to cover all the issues below, so comments are limited to a few observations.

It is true that managing a digital collection requires a different kind of attitude – and skill set – to analogue archiving that is far less labour intensive. You cannot simply transfer your digital files onto a hard drive, put it on the shelf and forget about it for ten-fifteen years. If you were to do this, there is a very real possibility the file could not be opened when you return to it.

taking-good-care-of-personal-archive-dpc-2015

Screenshot taken from the DPC guide to Personal Digital Archiving

As Gabriela Redwine explains in the Digital Preservation Coalition’s Technology Watch Report on Personal Digital Archiving, ‘the reality of ageing hardware and software requires us to be actively attuned to the age and condition of the digital items in our care.’ The emerging personal digital archivist therefore needs to learn how to practice actively engaging with their collections if their digital files are to survive in the long term.

Getting to grips with digital preservation, even at a basic level, will undoubtedly involve learning a variety of new skills, terms and techniques. Yet there are some simple, and fairly non-technical, things you can do to get started.

The first point to emphasise is the importance of saving files in more than one location. This is probably the most basic principle of digital preservation.

The good news about digital files is they can be moved, copied and shared with family and friends all over the world with comparable ease. So if there is a fire in one location, or a computer fails in another, it is likely that the file will still be safe in the other place where it is stored.

Employing consistent and clear file naming is also very important, as this enables files to be searched for and found easily.

Beyond this, things get a little more complicated and a whole lot more computer-based. We move into the more specialist area of digital preservation with its heady language of metadatachecksums and emulation, among other terms.

The need for knowledge and competencies

At present it can feel like there is a chasm between the world of private digital archiving, where people rely on third party solutions such as Google or Amazon to store and manage their files, and the professional field of digital preservation, which is populated by tech-specialists and archival whizz-kids.

The reality is that as we move deeper into the digital, file-based future, ordinary people will need to adopt existing preservation tools if they are to learn how to manage their digital collections in a more direct and informed way.

Take, for example, the often cited recommendation for people to migrate or back up their collections on different media at annual or bi-annual intervals. While this advice may be sound, should people be doing this without profiling the file integrity of their collections first? What’s the point in migrating a collection of files, in other words, if half of those files are already corrupted?

In such instances as these, the everyday person may wish to familiarise themselves with existing software tools that can be used to assess and identify potential problems with their personal collections.

DROID (Digital Record Object IDentification), for example, a software tool developed by the UK National Archives, profiles files in your collection in order to facilitate ‘digital continuity’, ‘the ability to use digital information in the way that you need, for as long as you need.’

The open source software can identify over 200 of the most common document, image, audio and video files. It can help tell you what versions you have, their age and size, and when they were last changed. It can also help you find duplicates, and manage your file space more efficiently. DROID can be used to scan individual files or directories, and produces this information in a summary report. If you have never assessed your files before it may prove particularly useful, as it can give a detailed overview.

A big draw back of DROID is that it requires programming knowledge to install, so is not immediately accessible to those without such specialist skills. Fixity is a more user-friendly open source software tool that can enable people to monitor their files, tracking file changes or corruptions. Tools like Fixity and DROID do not ensure that digital files are preserved on their own; they help people to identify and manage problems within their collections. A list of other digital preservation software tools can be found here.

For customers of Greatbear, who are more than likely to be interested in preserving audiovisual archives, AV Preserve have collated a fantastic list of tools that can help people both manage and practice audiovisual preservation. For those interested in the different scales of digital preservation that can be employed, the NDSA (National Digital Stewardship Alliance) Levels of Preservation offers a good overview of how a large national institution envisions best practice.

Tipping Points

We are, perhaps, at a tipping point for how we play back and manage our digital data. The 21st century has been characterised by the proliferation of digital artefacts and memories. The archive, as the fundamental shaper of individual and community identities, has taken central stage in our lives.

With this unparalleled situation, new competencies and confidences certainly need to be gained if the personal archiving of digital files is to become an everyday reality at a far more granular and empowered level than is currently the norm.

Maybe, one day, checking the file integrity of one’s digital collection will be seen as comparable to other annual or bi-annual activities, such as going to the dentist or taking the car for its MOT.

We are not quite there yet, that much is certain. This is largely because companies such as Google make it easy for us to store and efficiently organise personal information in ways that feel secure and manageable. These services stand in stark contrast to the relative complexity of digital preservation software, and the computational knowledge required to install and maintain it (not to mention the amount of time it could take to manage one’s digital records, if you really dedicated yourself to it).

Growing public knowledge about digital archiving, the desire for knowledge and new competencies, as well as the pragmatic fact that digital archives are easier to manage in file-based systems, may encourage the gap between professional digital preservation practices and the interests of everyday, digital citizens, to gradually close over time. Dialogue and greater understanding is most certainly needed if we are to move forward from the current context.

Greatbear want to be part of this process by helping customers have confidence in file-based delivery, rather than rely on formats that are obsolete, of poorer quality and counter-intuitive to the long term preservation of audio visual archives.

We are, as ever, happy to explain the issues in more detail, so please do contact us if there are issues you want to discuss.

We also provide a secure CD to digital file transcription service: Digital audio (CD-DA), data (CD-ROM), audio and data write-once (CD-R) and rewritable media (CD-RW) disc transfer.

Posted by debra in audio tape, digitisation expertise, 0 comments

ADAT digital multi-track recorders

The Alesis ADAT digital multi-track tape recorder is an iconic piece of early 1990s audio recording equipment.

ADATs used consumer S-VHS video tape to record up to 8 tracks of digital audio.

They were modular, meaning that each machine could be synched with up to 15 other ADA ADAT type II machine T machines. It was therefore possible, in theory, to create a home recording studio with capacity to simultaneously record 128 tracks of audio, a process known as ‘mega-tracking’.

Similar to other early digital audio technology such as PCM 7030 and DAT, ADAT utilised recording methods originally developed for analogue video tape.

In analogue video the use of helical scanning and rotating recording/ playback heads was the means to produce the larger bandwidth necessary to capture the analogue video signal.

Helical scanning was logically re-purposed for recording digital audio because it similarly requires substantial bandwidth (the original ADAT recorded at a sampling rate of 48 kHz/ 16 bits).

Recording revolution

According to George Petersen ‘the Alesis ADAT changed the entire recording industry, beginning a revolution of affordable recording tools. Overnight, the cost of digital studio recording plummeted from a sizeable $150,000 for the Sony PCM-3324 24-track to a relatively modest $12,000 for three ADATs at their original $3,995.’

Figures from the Audio Engineering Society suggest that ‘20,000 were sold in its first year from October 1992 to November 1993 and 80,000 sold by 1998.’

Sound studies scholar Jonathan Sterne argues that ‘ADATs were symbolic of the democratization of audio recordings and changes in the audio industry,’ facilitating ‘the rise of amateur recording and a whole “semi-professional” realm of small studios, often located in homes or other less-than-optimal acoustic spaces.’

ADAT at Greatbear

At Greatbear we receive relatively few ADAT recordings in comparison with analogue multi-track formats.

This may be because ADAT is ‘recently obsolescent,’ and for everyday reasons users of this technology have not got around to migrating their archive to digital files.

Like all early digital audio formats recorded on tape, however, ADAT raise specific preservation concerns.

As we have stressed before, tape-based digital recordings do not degrade gracefully. They are subject to catastrophic rather than moderate signal loss. If the original recording has errors that prevent the ‘smooth’ playback of the tape (e.g., from clogged heads or the presence of dust), or there is any kind of damage to the tape surface (scratches or mould), this will create irreversible drop outs within the preservation copy.

As an emergent format used by people with a range of technical expertise, it seems reasonable to expect ADAT recording practices to be a little unsettled and experimental. The physical strain on both tape and transport in a heavy production environment must also be considered (the shuttling back and forth of the tape mechanism), as this would have shaped the quality of the original recording.

In the Greatbear studio we have several ADAT machines (the Alesis M20, ADAT XT and ADAT LX20) ready to transfer your tapes.

We deliver transferred files as individual, synchronised track ‘stems’ and use ADAT ‘sync’ and optical cables to ensure an authentic born digital workflow.

Perhaps now is the time to remix that early digital multi-track masterpiece…

Posted by debra in audio tape, audio technology, machines, equipment, 0 comments

Mouldy DATs

We have previously written on this blog about the problems that can occur when transferring Digital Audio Tapes (DATs).

According to preliminary findings from the British Library’s important survey of the UK’s sound collections, there are 3353 DAT tapes in the UK’s archives.

While this is by no means a final figure (and does not include the holdings of record companies and DATheads), it does suggest there is a significant amount of audio recorded on this obsolete format which, under certain conditions, is subject to catastrophic signal loss.

The conditions we are referring to is that old foe of magnetic tape: mould.

In contrast with existing research about threats to DAT, which emphasise how the format is threatened by ‘known playback problems that are typically related to mechanical alignment’, the biggest challenges we consistently face with DATs is connected to mould.

It is certainly acknowledged that ‘environmental conditions, especially heat, dust, and humidity, may also affect cassettes.’

Nevertheless, the specific ways mould growth compromise the very possibility of successfully playing back a DAT tape have not yet been fully explored. This in turn shapes the kinds of preservation advice offered about the format.

What follows is an attempt to outline the problem of mould growth on DATs which, even in minimal form, can pretty much guarantee the loss of several seconds of recording.

DAT Tape Size Tape width issues

The first problem with DATs is that they are 4mm wide, and very thin in comparison to other forms of magnetic tape.

The size of the tape is compounded by the helical method used in the format, which records the signal as a diagonal stripe across the tape. Because tracks are written onto the tape at an angle, if the tape splits it is not a neat split that can be easily spliced together.

The only way to deal with splits is to wind the tape back on to the tape transport or use leader tape to stick the tape back together at the breaking point.

Either way, you are guaranteed to lose a section of the tape because the helical scan has imprinted the recorded signal at a sharp, diagonal angle. If a DAT tape splits, in other words, it cuts through the diagonal signal, and because it is digital rather than analogue audio, this results in irreversible signal loss.

And why does the tape split? Because of the mould!

If you play back a DAT displaying signs of dormant mould-growth it is pretty much guaranteed to split in a horrible way. The tape therefore needs to be disassembled and wound by hand. This means you can spend a lot of time restoring DATs to a playable condition.

Rewinding by hand is however not 100% fool-proof, and this really highlights the challenges of working with mouldy DAT tape.

Often mould on DATs is visible on the edge of the tape pack because the tape has been so tightly wound it doesn’t spread to the full tape surface.

In most cases with magnetic tape, mould on the edge is good news because it means it has not spread and infected the whole of the tape. Not so with DAT.

Even with tiny bits of mould on the edge of the tape there is enough to stick it to the next bit of tape as it is rewound.

When greater tension is applied in an attempt to release the mould, due to stickiness, the tape rips.

A possible and plausible explanation for DAT tape ripping is that due to the width and thinness of the tape the mould is structurally stronger than the tape itself, making it easier for the mould growth to stick together.

When tape is thicker, for example with a 1/4 ” open reel tape, it is easier to brush off the dormant mould which is why we don’t see the ripping problem with all kinds of tape.

Our experience confirms that brushing off dormant mould is not always possible with DATs which, despite best efforts, can literally peel apart because of sticky mould.

What, then, is to be done to ensure that the 3353 (and counting) DAT tapes in existence remain in a playable condition?

One tangible form of action is to check that your DATs are stored at the appropriate temperature (40–54°F [4.5–12°C]) so that no mould growth develops on the tape pack.

The other thing to do is simple: get your DAT recordings reformatted as soon as possible.

While we want to highlight the often overlooked issue of mould growth on DATs, the problems with machine obsolescence, a lack of tape head hours and mechanical alignment problems remain very real threats to successful transfer of this format.

Our aim at the Greatbear is to continue our research in the area of DAT mould growth and publish it as we learn more.

As ever, we’d love to hear about your experiences of transferring mouldy DATs, so please leave a comment below if you have a story to share.

 

Posted by debra in audio tape, digitisation expertise, 0 comments

IASA – Resources and Research

There are an astonishing amount of online resources relating to the preservation and re-formatting of magnetic tape collections.

Whether you need help identifying and assessing your collection, getting to grips with the latest video codec saga or trying to uncover esoteric technical information relating to particular formats, the internet turns up trumps 95% of the time.

Marvel at the people who put together the U-Matic web resource, for example, which has been online since 1999, a comprehensive outline of the different models in the U-Matic ‘family.’ The site also hosts ‘chat pages’ relating to Betamax, Betacam, U-Matic and V2000, which are still very much active, with archives dating back to 1999. For video tape nerds willing to trawl the depths of these forums, nuggets of machine maintenance wisdom await you.

 International Association of Sound and Audiovisual Archives

Sometimes you need to turn to rigorous, peer-reviewed research in order to learn from AV archive specialists.

Fortunately such material exists, and a good amount of it is collected and published by the International Association of Sound and Audiovisual Archives (IASA).

Three IASA journals laid out on the floor

‘Established in 1969 in Amsterdam to function as a medium for international co-operation between archives that preserve recorded sound and audiovisual documents’, IASA holds expertise relating to the many different and specialist issues attached to the care of AV archives.

Comprised of several committees dealing with issues such as standards and best practices; National Archive policies; Broadcast archives; Technical Issues; Research Archives; Training and Education, IASA reflects the diverse communities of practice involved in this professional field.

As well as hosting a yearly international conference (check out this post on The Signal for a review of the 2014 meeting), IASA publish a bi-annual journal and many in-depth specialist reports.

Their Guidelines on the Production and Preservation of Digital Audio Objects (2nd edition, 2009), written by the IASA Technical Committee, is available as a web resource, and provides advice on key issues such as small scale approaches to digital storage systems, metadata and signal extraction from original carriers, to name a few.

Most of the key IASA publications are accessible to members only, and therefore remain behind a paywall. It is definitely worth taking the plunge though, because there are comparably few specialist resources relating to AV archives written with an interdisciplinary—and international—audience in mind.

Examples of issues covered in member-only publications include Selection in Sound Archives, Decay of Polymers, Deterioration of Polymers and Ethical Principles for Sound and Audiovisual Archives.

The latest publication from the IASA Technical Committee, Handling and Storage of Audio and Video Carriers (2014) or TC05, provides detailed outlines of types of recording carriers, physical and chemical stability, environmental factors and ‘passive preservation,’ storage facilities and disaster planning.

The report comes with this important caveat:

 ‘TC 05 is not a catalogue of mere Dos and Don’ts. Optimal preservation measures are always a compromise between many, often conflicting parameters, superimposed by the individual situation of a collection in terms of climatic conditions, the available premises, personnel, and the financial situation. No meaningful advice can be given for all possible situations. TC 05 explains the principal problems and provides a basis for the archivist to take a responsible decision in accordance with a specific situation […] A general “Code of Practice” […] would hardly fit the diversity of structures, contents, tasks, environmental and financial circumstances of collections’ (6).

Member benefits

Being an IASA member gives Greatbear access to research and practitioner communities that enable us to understand, and respond to, the different needs of our customers.

Typically we work with a range of people such as individuals whose collections have complex preservation needs, large institutions, small-to-medium sized archives or those working in the broadcast industry.

Our main concern is reformatting the tapes you send us, and delivering high quality digital files that are appropriate for your plans to manage and re-use the data in the future.

If you have a collection that needs to be reformatted to digital files, do contact us to discuss how we can help.

Posted by debra in audio / video heritage, audio tape, video tape, 0 comments

Digital Preservation and Copyright

Most customers who send us tape to digitise own the copyright of their recording: it is material they have created themselves, be it music, spoken word or film.

Occasionally customers are not so sure if they own the full copyright to their recordings. This is because a single piece of work can have multiple copyright holders.

For example, films and songs can have many different contributors, such as the person who made the recording, the songwriter and performers. There are performing rights royalties which are paid to a songwriter, composer or publisher whenever their music is played or performed in any public space or place; mechanical rights royalties which are paid to the songwriter, composer or publisher when music is reproduced as a physical product or for broadcast or online, and performers rights royalties which are paid to the people performing on the record. It can seem like a bit of a minefield, and you do have to be really careful, particularly if want to re-publish the works in a commercial context.

A box of full of reel to reel tapes, the spools are dirty because of how they were stored

A collection of tapes that include original recordings made by the customer

The simple truth is, if you do not have full permission of all copyright holders, you would break the law if you digitised a tape and re-published it commercially.

Copyright, Intellectual Property and Digital Preservation is a tricky area to negotiate. Currently ‘there is still no exception in UK law for preservation copying. For materials which are still in copyright, permissions should be sought from copyright holders prior to any copying being done. This area is under consideration though with museums, libraries and archives lobbying for change’ (Jisc Digital Media).

What this means basically is that archives, libraries and museums are effectively restricted in how much material they can legally preserve in digital form. Andrew Charlesworth explains in a very useful report for the Digital Preservation Coalition on ‘Intellectual Property Rights for Digital Preservation’ (2012)

‘In “Chapter III: Acts permitted in relation to copyright works”, the Copyright Designs and Patents Act 1988 provides for a series of permissible activities that would otherwise be barred for breach of a rights holder’s exclusive rights. These include the “fair dealing provisions” which, for example, state that making transient copies is an integral and essential part of certain technological processes (s.28), and using all or part of a copyright work for non-commercial research or private study (s.29), criticism or review, or reporting current events (s.30), do not constitute infringements’ (11).

Clearly copyright law as it stands places immense restrictions in a digital environment where copying and sharing all kinds of things is pretty much the norm. What are the arguments then for changing copyright laws? In Imagine there is no copyright and cultural conglomerates too by Joost Smiers and Marieke Van Schinjdel, published by the Institute of Network CulturesTheory on Demand series, they argue that removing copyright from cultural products will ensure that ‘our past and present heritage of cultural expression, our public domain of artistic creativity and knowledge will no longer be privatised’ (6).

Making cultural heritage publicly available is an argument for transforming current copyright laws across the range of political positions. While Smiers and Van Schinjdel interpret privatisation embedded in copyright law as linked to commercial power, the implicit argument in the DPC report is that opening up current restrictions can only be good for business. In this particular domain we see how the value of archival information has shifted in the digital landscape, so that it is increasingly seen as a resource through which money can be made.

Copyright symbol attached to a padlock A transformation of copyright laws would not necessarily lead to a weakening of commercial interests as Smiers and Van Schinjdel speculate, but would most probably enable the re-use of information across a range of profit and profit-making initiatives. Charlesworth insists we are ‘clinging to copyright practices that reflect outdated business models rather than attempting to establish new practices to address the prevailing mixed analogue/digital environment’ (7).

The digital information revolution has required all sectors of society to change how they relate to, use, record, save and consume information. While we have all become, to a lesser or more degree, record keepers, this brief survey of copyright law may help us appreciate the challenges professional archivists face in negotiating this complex area. After all, ‘life would be much simpler for archivists if the law relating to the preservation of copyright works in general, and digital works in particular, was both clarified and, where necessary, extended to permit more robust strategies for collection, preservation and reuse of copyright works’ (5).

 

Posted by debra in audio tape, video tape, 0 comments

Digitisation strategies – back up, bit rot, decay and long term preservation

In a blog post a few weeks ago we reflected on several practical and ethical questions emerging from our digitisation work. To explore these issues further we decided to take an in-depth look at the British Library’s Digital Preservation Strategy 2013-2016 that was launched in March 2013. The British Library is an interesting case study because they were an ‘early adopter’ of digital technology (2002), and are also committed to ensuring their digital archives are accessible in the long term.

Making sure the UK’s digital archives are available for subsequent generations seems like an obvious aim for an institution like the British Library. That’s what they should be doing, right? Yet it is clear from reading the strategy report that digital preservation is an unsettled and complex field, one that is certainly ‘not straightforward. It requires action and intervention throughout the lifecycle, far earlier and more frequently than does our physical collection (3).’

The British Library’s collection is huge and therefore requires coherent systems capable of managing its vast quantities of information.

‘In all, we estimate we already have over 280 terabytes of collection content – or over 11,500,000 million items – stored in our long term digital library system, with more awaiting ingest. The onset of non-print legal deposit legislation will significantly increase our annual digital acquisitions: 4.8 million websites, 120,000 e-journal articles and 12,000 e-books will be collected in the first year alone (FY 13/14). We expect that the total size of our collection will increase massively in future years to around 5 petabytes [that’s 5000 terabytes] by 2020.’

All that data needs to be backed up as well. In some cases valuable digital collections are backed up in different locations/ servers seven times (amounting to 35 petabytes/ 3500 terabytes). So imagine it is 2020, and you walk into a large room crammed full of rack upon rack of hard drives bursting with digital information. The data files – which include everything from a BWAV audio file of a speech by Natalie Bennett, leader of the Green Party after her election victory in 2015, to 3-D data files of cunieform scripts from Mesopotamia, are constantly being monitored by algorithms designed to maintain the integrity of data objects. The algorithms measure bit rot and data decay and produce further volumes of metadata as each wave of file validation is initiated. The back up systems consume large amounts of energy and are costly, but in beholding them you stand in the same room as the memory of the world, automatically checked, corrected and repaired in monthly cycles.

Such a scenario is gestured toward in the British Library’s long term preservation strategy, but it is clear that it remains a work in progress, largely because the field of digital preservation is always changing. While the British Library has well-established procedures in place to manage their physical collections, they have not yet achieved this with their digital ones. Not surprisingly ‘technological obsolescence is often regarded as the greatest technical threat to preserving digital material: as technology changes, it becomes increasingly difficult to reliably access content created on and intended to be accessed on older computing platforms.’ An article from The Economist in 2012 reflected on this problem too: ‘The stakes are high. Mistakes 30 years ago mean that much of the early digital age is already a closed book (or no book at all) to historians.’

Destroyed Hard Drive

There are also shorter term digital preservation challenges, which encompass ‘everything from media integrity and bit rot to digital rights management and metadata.’ Bit rot is one of those terms capable of inducing widespread panic. It refers to how storage media, in particular optical media like CDs and DVDs, decay over time often because they have not been stored correctly. When bit rot occurs, a small electric charge of a ‘bit’ in memory disperses, possibly altering program code or stored data, making the media difficult to read and at worst, unreadable. Higher level software systems used by large institutional archives mitigate the risk of such underlying failures by implementing integrity checking and self-repairing algorithms (as imagined in the 2020 digital archive fantasy above). These technological processes help maintain ‘integrity and fixity checking, content stabilisation, format validation and file characterisation.’

Archival Gold Disc

300 years, are you sure?

Preservation differences between analogue and digital media

The British Library isolate three main areas where digital technologies differ from their analogue counterparts. Firstly there is the issue of ‘proactive lifestyle management‘. This refers to how preservation interventions for digital data need to happen earlier, and be reviewed more frequently, than analogue data. Secondly there is the issue of file ‘integrity and validation.’ This refers to how it is far easier to make changes to a digital file without noticing, while with a physical object it is usually clear if it has decayed or a bit has fallen off. This means there are greater risks to the authenticity and integrity of digital objects, and any changes need to be carefully managed and recorded properly in metadata.

Finally, and perhaps most worrying, is the ‘fragility of storage media‘. Here the British Library explain:

‘The media upon which digital materials are stored is often unstable and its reliability diminishes over time. This can be exacerbated by unsuitable storage conditions and handling. The resulting bit rot can prevent files from rendering correctly if at all; this can happen with no notice and within just a few years, sometimes less, of the media being produced’.

A holistic approach to digital preservation involves taking and assessing significant risks, as well as adapting to vast technological change. ‘The strategies we implement must be regularly re-assessed: technologies and technical infrastructures will continue to evolve, so preservation solutions may themselves become obsolete if not regularly re-validated in each new technological environment.’

Establishing best practice for digital preservation remains a bit of an experiment, and different strategies such as migration, emulation and normalisation are tested to find out what model best helps counter the real threats of inaccessibility and obsolescence we may face in 5-10 years from now. What is encouraging about the British Library’s strategic vision is they are committed to ensuring digital archives are accessible for years to come despite the very clear challenges they face.

Posted by debra in audio tape, video tape, 0 comments