How Artificial Intelligence Completed Beethoven’s Unfinished Tenth Symphony

On October 9, the work will be performed in Bonn, Germany, and a recording will be released

Throughout the project, Beethoven’s genius loomed. Circe Denyer

When Ludwig von Beethoven died in 1827, he was three years removed from the completion of his Ninth Symphony, a work heralded by many as his magnum opus. He had started work on his Tenth Symphony but, due to deteriorating health, wasn’t able to make much headway: All he left behind were some musical sketches.

Ever since then, Beethoven fans and musicologists have puzzled and lamented over what could have been. His notes teased at some magnificent reward, albeit one that seemed forever out of reach.

Now, thanks to the work of a team of music historians, musicologists, composers and computer scientists, Beethoven’s vision will come to life.

I presided over the artificial intelligence side of the project, leading a group of scientists at the creative A.I. startup Playform AI that taught a machine both Beethoven’s entire body of work and his creative process.

A full recording of Beethoven’s Tenth Symphony is set to be released on October 9, 2021, the same day as the world premiere performance scheduled to take place in Bonn, Germany - the culmination of a two-year-plus effort.

Past attempts hit a wall

Around 1817, the Royal Philharmonic Society in London commissioned Beethoven to write his Ninth and Tenth symphonies. Written for an orchestra, symphonies often contain four movements: the first is performed at a fast tempo, the second at a slower one, the third at a medium or fast tempo, and the last at a fast tempo.

Beethoven completed his Ninth Symphony in 1824, which concludes with the timeless “Ode to Joy.”

But when it came to the Tenth Symphony, Beethoven didn’t leave much behind, other than some musical notes and a handful of ideas he had jotted down.

Beethoven 10th symphony
A page of Beethoven’s notes for his planned 10th Symphony. Beethoven House Museum, CC BY-SA

There have been some past attempts to reconstruct parts of Beethoven’s Tenth Symphony. Most famously, in 1988, musicologist Barry Cooper ventured to complete the first and second movements. He wove together 250 bars of music from the sketches to create what was, in his view, a production of the first movement that was faithful to Beethoven’s vision.

Yet the sparseness of Beethoven’s sketches made it impossible for symphony experts to go beyond that first movement.

Assembling the team

In early 2019, Dr. Matthias Röder, the director of the Karajan Institute, an organization in Salzburg, Austria, that promotes music technology, contacted me. He explained that he was putting together a team to complete Beethoven’s Tenth Symphony in celebration of the composer’s 250th birthday. Aware of my work on A.I.-generated art, he wanted to know if A.I. would be able to help fill in the blanks left by Beethoven.

The challenge seemed daunting. To pull it off, A.I. would need to do something it had never done before. But I said I would give it a shot.

Röder then compiled a team that included Austrian composer Walter Werzowa. Famous for writing Intel’s signature bong jingle, Werzowa was tasked with putting together a new kind of composition that would integrate what Beethoven left behind with what the A.I. would generate. Mark Gotham, a computational music expert, led the effort to transcribe Beethoven’s sketches and process his entire body of work so the A.I. could be properly trained.

The team also included Robert Levin, a musicologist at Harvard University who also happens to be an incredible pianist. Levin had previously finished a number of incomplete 18th-century works by Mozart and Johann Sebastian Bach.

The project takes shape

In June 2019, the group gathered for a two-day workshop at Harvard’s music library. In a large room with a piano, a blackboard and a stack of Beethoven’s sketchbooks spanning most of his known works, we talked about how fragments could be turned into a complete piece of music and how A.I. could help solve this puzzle, while still remaining faithful to Beethoven’s process and vision.

The music experts in the room were eager to learn more about the sort of music A.I. had created in the past. I told them how A.I. had successfully generated music in the style of Bach. However, this was only a harmonization of an inputted melody that sounded like Bach. It didn’t come close to what we needed to do: construct an entire symphony from a handful of phrases.

Beethoven portrait
The A.I. needed to learn from Beethoven’s entire body of work in order to create something the composer might have written. Hulton Fine Art Collection/Getty Images

Meanwhile, the scientists in the room - myself included - wanted to learn about what sort of materials were available, and how the experts envisioned using them to complete the symphony.

The task at hand eventually crystallized. We would need to use notes and completed compositions from Beethoven’s entire body of work - along with the available sketches from the Tenth Symphony - to create something that Beethoven himself might have written.

This was a tremendous challenge. We didn’t have a machine that we could feed sketches to, push a button and have it spit out a symphony. Most A.I. available at the time couldn’t continue an uncompleted piece of music beyond a few additional seconds.

We would need to push the boundaries of what creative A.I. could do by teaching the machine Beethoven’s creative process - how he would take a few bars of music and painstakingly develop them into stirring symphonies, quartets and sonatas.

Piecing together Beethoven’s creative process

As the project progressed, the human side and the machine side of the collaboration evolved. Werzowa, Gotham, Levin, and Röder deciphered and transcribed the sketches from the Tenth Symphony, trying to understand Beethoven’s intentions. Using his completed symphonies as a template, they attempted to piece together the puzzle of where the fragments of sketches should go - which movement, which part of the movement.

They had to make decisions, like determining whether a sketch indicated the starting point of a scherzo, which is a very lively part of the symphony, typically in the third movement. Or they might determine that a line of music was likely the basis of a fugue, which is a melody created by interweaving parts that all echo a central theme.

The A.I. side of the project - my side - found itself grappling with a range of challenging tasks.

First, and most fundamentally, we needed to figure out how to take a short phrase, or even just a motif, and use it to develop a longer, more complicated musical structure, just as Beethoven would have done. For example, the machine had to learn how Beethoven constructed the Fifth Symphony out of a basic four-note motif.


Four notes famously serve as the basis for Beethoven’s Fifth Symphony. Australian Champber Orchestra/YouTube616 KB (download)

Next, because the continuation of a phrase also needs to follow a certain musical form, whether it’s a scherzo, trio or fugue, the A.I. needed to learn Beethoven’s process for developing these forms.

The to-do list grew: We had to teach the A.I. how to take a melodic line and harmonize it. The A.I. needed to learn how to bridge two sections of music together. And we realized the A.I. had to be able to compose a coda, which is a segment that brings a section of a piece of music to its conclusion.

Finally, once we had a full composition, the A.I. was going to have to figure out how to orchestrate it, which involves assigning different instruments for different parts.

And it had to pull off these tasks in the way Beethoven might do so.

Passing the first big test

In November 2019, the team met in person again - this time, in Bonn, at the Beethoven House Museum, where the composer was born and raised.

This meeting was the litmus test for determining whether A.I. could complete this project. We printed musical scores that had been developed by A.I. and built off the sketches from Beethoven’s Tenth. A pianist performed in a small concert hall in the museum before a group of journalists, music scholars and Beethoven experts.

How Artificial Intelligence Completed Beethoven's Unfinished Tenth Symphony
Journalists and musicians gather to hear a pianist perform parts of Beethoven’s 10th Symphony. Ahmed Elgammal, CC BY-SA

We challenged the audience to determine where Beethoven’s phrases ended and where the A.I. extrapolation began. They couldn’t.

A few days later, one of these A.I.-generated scores was played by a string quartet in a news conference. Only those who intimately knew Beethoven’s sketches for the Tenth Symphony could determine when the A.I.-generated parts came in.

The success of these tests told us we were on the right track. But these were just a couple of minutes of music. There was still much more work to do.

Ready for the world

At every point, Beethoven’s genius loomed, challenging us to do better. As the project evolved, the A.I. did as well. Over the ensuing 18 months, we constructed and orchestrated two entire movements of more than 20 minutes apiece.

We anticipate some pushback to this work - those who will say that the arts should be off-limits from A.I., and that A.I. has no business trying to replicate the human creative process. Yet when it comes to the arts, I see A.I. not as a replacement, but as a tool - one that opens doors for artists to express themselves in new ways.

This project would not have been possible without the expertise of human historians and musicians. It took an immense amount of work - and, yes, creative thinking - to accomplish this goal.

At one point, one of the music experts on the team said that the A.I. reminded him of an eager music student who practices every day, learns, and becomes better and better.

Now that student, having taken the baton from Beethoven, is ready to present the Tenth Symphony to the world.

A selection from Beethoven’s 10th symphony. YouTube/Modern Recordings, CC BY-SA3.38 MB (download)

Ahmed Elgammal is a professor and director of the Art & AI Lab at Rutgers University.

This article is republished from The Conversation under a Creative Commons license. Read the original article.

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