Xenakis and CLAEM fellows: the case of Graciela Paraskevaídis and the ghost of Varèse

Xenakis's visit was one of the most anticipated events at CLAEM for 1966. In his visit, the Greek composer worked with the group of CLAEM fellows selected from the 1965–66 cycle: Rafael Aponte-Ledée (Puerto Rico, b. 1938), Jorge Arandia Navarro (Argentina, b. 1929), Gabriel Brnčić (Chile, b. 1942), Mariano Etkin (Argentina, 1943–2016), Benjamín Gutierrez (Costa Rica, b. 1937), Miguel Letelier (Chile, 1939–2016), Eduardo Mazzadi (Argentina, 1935–67), Graciela Paraskevaídis (Argentina, 1940–2017), Enrique Rivera (Chile, b. 1941), and Jorge Sarmientos (Guatemala, 1933–2012) (Figure 1). Additionally, Walter Ross from the United States was also present in 1966, with an Organization of American States (OAS) grant.Footnote ¹⁴ Their activities centred around an intensive course given between 22 August and 3 September, titled ‘Stochastic, Strategic, and Symbolic Music’, in which Xenakis shared his experiences with theories of probability and computer-aided composition. The title of the course epitomized Xenakis's main interests since the composition of Pithoprakta and his ST- series and underlined how the composer connected musical and scientific discourse. For the students, some of the classes were enlightening, others, utterly confusing. Xenakis was interviews by one of the students, Paraskevaídis, who asked him to outline what he meant by each part of his course title. The composer obliged and explained that, in this case, by ‘stochastic music’ he referred to his interest in probability. ‘Stochastic’, Xenakis said to Paraskevaídis, ‘comes from the mathematical term that equates to probability or probabilistic and derives from the Greek stochos (object) … I call music stochastic that introduces the theory of probabilities, as an attitude and a thought.’Footnote ¹⁵ The topic of ‘strategic music’, he said, discusses ‘the use of conflicting situations in composition and the execution of the music, in which case, one wins and the other loses, like in game theory; that is to say, the planning of systems in games of chance … Strategy is the means of directing the game to be able to win.’Footnote ¹⁶ Lastly, Xenakis stated, ‘symbolic music’ refers to music that utilizes mathematical logic, centred around set theory and Boolean algebra, where ‘sounds [are considered] abstract elements, without any conditioning by cultural tradition of any kind’.Footnote ¹⁷ A good example of this final aspect is the piece Herma (Herm, 1961), in which Xenakis uses groups of sound as sets with which logical operations are performed: a union of two sets, which uses all the sounds present in both; intersection, which uses only shared sounds between the sets; or negation, in which the result is only the sounds that are unique to each set.

Figure 1 Class of 1966 with Iannis Xenakis. From left to right: Pedro Calderón, Gerardo Gandini, Alberto Ginastera, Rafael Aponte-Ledée, Miguel Letelier (back), Benjamín Gutierrez (back), Jorge Arandia Navarro (back), Jorge Sarmientos, Iannis Xenakis, Josefina Schröder, Graciela Paraskevaídis, Enrique Rivera, Mariano Etkin, Gabriel Brnčić, and Eduardo Mazzadi. Courtesy of Fundación Archivo Aharonián-Paraskevaídis.

The classes produced mixed results. Gabriel Brnčić remembers that Xenakis ‘showed us all of his theories at once … Those of us who had read his work, were learning a lot … Other students would say “that guy is an alien. He is crazy” and I would stay quiet because I was happy there.’Footnote ¹⁸ Mariano Etkin recalls that ‘in the first class he filled the board with mathematical formulas. Five minutes in we were lost because nobody understood anything. Xenakis was explaining how he fed a computer with a program, and then the machine would give him a result for aleatoric distribution, and with that, he created a cloud of glissandi in musical notation.’ A student followed up the presentation asking if he ever modified the results, and Xenakis answered ‘Well, yes. I sometimes tweak them.’ For Etkin, this was crucial. ‘It meant that when it came down to musicality, if he was not interested in something he would modify it.’Footnote ¹⁹ For others, such as Jorge Arandia Navarro, Xenakis visit meant understanding more about music that ‘we had heard but had not understood well. He taught us by filling the board with math, with logarithms. It was a bit like hearing another language … I had heard Boulez; I followed Le Marteau sans Maître in a score I owned. All that was understandable to me. But Xenakis, it was rough, it was rustic, a crazy Greek with an incredible aptitude for mathematics.’Footnote ²⁰ Still, for others, such as César Bolaños, the visit of Xenakis left little to be remembered and turned out to be a small disappointment.Footnote ²¹

Student interactions with Xenakis went beyond the classroom and included informal discussions, socialization, and time for leisure. The composer's visit even extended to the diplomatic field. In honour of Xenakis's visit, the cultural attaché from the Greek embassy, Alcibíades Lappas, organized a reception at his private residence, attended by Alberto Ginastera and his wife, along with various fellows from CLAEM.Footnote ²² Finally, like the vast majority of visiting professors at CLAEM, Xenakis gave a lecture-recital that was open to the general public, entitled ‘New Principles of Musical Composition’, on 31 August.Footnote ²³

Xenakis's ideas and music were a strong influence for several composers at CLAEM. A good example is the compositional approach that Puerto Rican composer Rafael Aponte Ledée took for his Elejía (1966) for thirteen strings (later expanded to fifty strings), written during his time of study at CLAEM.Footnote ²⁴ The piece, like Xenakis's Metastaseis, uses aleatorism and unconventional notation to create masses of sound that, while internally varied, have a relatively consistent contour. A similar characteristic is noted by Rodolfo A. Córdova Lebrón in Aponte Ledée's Streptomycine (1969), which features ‘a combination of mobile forms with sound masses (an idea from Iannis Xenakis) and a treatment of texture and instrumentation similar to Earl Brown’ who had also taught at CLAEM.Footnote ²⁵

Undoubtedly there was something about Xenakis's ideas that resonated deeply in the musical imagination of many of the composers that met him. In a conversation with Mariano Etkin, the origins of this affinity are clarified a bit:

Mentioning Varèse in this group of composers is significant. The sound masses created from independently moving instruments that one hears in Metastaseis, Pithoprakta, and Achorripsis, and, in general, Xenakis's interest in prioritizing timbral and textual parameters over pitch and rhythm stemmed directly from Varèse's influence. ‘I love Varèse’, stated Xenakis in an interview in 1966, ‘and [I] profess the greatest admiration for his music and for the man himself.’Footnote ²⁷ I argue that there is an underlying logic that explains the attraction of several CLAEM composers to Xenakis's music – the same one that explains an interest in Varèse and later in Polish composers and in Morton Feldman. The music of these composers exemplified how to produce something avant-garde outside of the common places dominated by central Europe. Also of great importance is that none of these composers resorted to some type of self-exoticization or any hint of an Otherness. It was precisely the opposite; these composers exemplified a way of accessing the transnational avant-garde without falling into the moulds of the dominant composers – represented in Xenakis's era by Darmstadt's courses in the 1950s and early 1960s. The sound worlds that Xenakis proposed, like those of Varèse, abandoned the focus on pitch and rhythmic parameters, fundamental characteristics of the European avant-garde of the early twentieth century.

In Argentina, Varèse had a marked influence on the work of Juan Carlos Paz (1897–1972), one of the most important avant-garde figures in the country who occupied an important place in Introducción a la música de nuestro tiempo (1955), a book that was fundamental in the formation of many Argentinean composers during the 1960s, including Paraskevaídis, Etkin, and many other CLAEM fellows.Footnote ²⁸ Paz called Varèse the ‘latest pioneer and master of the current musical period’ and described his music as one in which ‘the maximum interest of the developments is maintained through the opposition of planes and the mobility of rhythmic variants: something that could be defined as the conception of spatial music and static development’.Footnote ²⁹ Paz himself noted that Varèse's music had motivated and generated the attraction of Xenakis towards ‘static development and the use of bruit organisé’.Footnote ³⁰

It was precisely this perspective of Xenakis who continued the spirit of Varèse that, I suggest, profoundly impacted Latin American composers who crossed paths with him in Buenos Aires. Perhaps the most evident case was that of Argentinean composer Graciela Paraskevaídis. About his visit to CLAEM, the composer recounted:

Paraskevaídis connected with the composer musically, and this was reinforced on a more personal level through their common Greek heritage and the friendship that Xenakis formed with the composer's parents. Paraskevaídis narrated:

Musically, an interest in giving priority to timbral and textual parameters over pitch and rhythm – which, for Paraskevaídis as well, came from Varèse's work – and common ties to Greece – Paraskevaídis is of Greek descent both paternally and maternallyFootnote ³³ – created a connection between the two composers. Varèse's concrete influence on Paraskevaídis's music has been observed by Solomonoff and by Budón, and especially by the composer herself, who has dedicated various studies to Varèse's relationship with Latin America.Footnote ³⁴ With respect to the impact of Varèse on her own work, Paraskevaídis wrote that in 1960 in a short and uncommon moment of self-reflection where she spoke on the third person about herself: ‘Three Argentinean composers – Eduardo Bértola [b. 1939], Mariano Etkin, and Graciela Paraskevaídis – shared the juvenile discovery of the prodigious Varèsian world and its creative challenges. Each one of them incorporated and elaborated on them in his or her own way, obviously without Varèse finding out.’Footnote ³⁵

Some of Juan Carlos Paz's descriptions of Varèse's compositions in his book Alturas, tensiones, ataques, intensidades (Memorias I) could well have been about Paraskevaídis's music. For example, Paz indicates that in Varèse's works one can find a ‘frequent usage of extreme dissonances both high and low in pitch, constantly and violently striking with fanatical conviction … extreme registers … invariable repetition of a small set of pitches’.Footnote ³⁶ When musicologist Marcela Perrone describes Paraskevaídis's work for piano, un lado, otro lado (1984), she indicates that Varèse's influence can be observed in:

The continuities between the music of Varèse, Xenakis, and Paraskevaídis are evidenced by the similarities that have been described in the context of the Río de la Plata. Analogous to common descriptions of Xenakis's music, Omar Corrado has noted that a general characteristic of Paraskevaídis's work ‘consists of basing the act of composing in sound as a point of departure’, while Wolfgang Rüdiger points out that Paraskevaídis's music has a ‘static character [that is], nevertheless, in a constant state of change’.Footnote ³⁸ As we saw previously, Paz notes that ‘Varèse's music stands out for its static development’.Footnote ³⁹ In his analysis of Paraskevaídis's work, magma VII (1984), Osvaldo Budón utilizes the same words, ‘static development’, characterizing it as a harmonic statism marked by the ‘permanence in time of a limited set of pitches’.Footnote ⁴⁰ Colombian Daniel Añez highlights the relationship between the non-discursiveness of Paraskevaídis's music and the static-mobile concept, ‘a sound space that at the same time changes, but does not move: the idea of not advancing’.Footnote ⁴¹

A clear example is the work magma I (1966–7), the first of several works in this series, written during her fellowship at CLAEM. In it, Paraskevaídis adopts characteristics of Xenakis's compositions and simultaneously finds a very personal voice that would recur throughout her works. From the beginning, the piece confronts the listener with an abrasive sound that prioritizes timbre and texture. The high sound density becomes the main impetus of the work. The first ten bars present nine brass instruments at fff playing an F#₃ that expands microtonally, with one of the trumpets utilizing a vibrato that accentuates the width of the tuning (Example 1). The piece uses sound masses with frequent glissandi, creating the impression of sound clouds in which the importance of individual pitch is minimalized, and the perceptual effect is one of a unique sound object created by the contours of the individual sounds with sporadic explosions of melodic cells on a smaller scale. Paraskevaídis's musical language shines here, both in its closeness to Xenakis's own work and in the uniqueness that she was starting to develop at 26 years of age.

Example 1 First ten bars of magma I (1967) by Graciela Paraskevaídis. Courtesy of Fundación Archivo Aharonián-Paraskevaídis.

Xenakis, Fernando von Reichenbach, and image-to-audio converters

One final aspect of Xenakis's visit worth emphasizing is the way in which the imagination of both the Greek composer and the engineer Fernando von Reichenbach (Argentina, 1931–2005) seem to have been stimulated by the possibility of transforming visual material into audio material. By the time of Xenakis's visit, the Electronic Music Laboratory at CLAEM, one of the first studios in Latin America, had already entered its second phase of existence, now led by the ingenious and inventive Fernando von Reichenbach.Footnote ⁴² Von Reichenbach's Convertidor Gráfico Analógico (Analogue Graphic Converter) – known affectionately as Catalina, functional since 1969 – has been the source of local speculations about the influence that this could have had on Xenakis's digital graphic converter.

In 1966, Xenakis had created the Equipe de Mathématique et Automatique Musicales (EMAMu) that in 1972 became the Centre d'Etudes de Mathématique et Automatique Musicales (CEMAMu). The objective of these institutions ‘making it possible for composers directly to transplant scientific thought and mathematics into music. Directly, that is, without any sound generator or musical instrument.’Footnote ⁴³ One of the key projects developed there was the Unité Polyagogique Informatique du CEMAMu (UPIC).Footnote ⁴⁴ The UPIC was a digital image-to-audio converter that utilized a graphic controller that functioned as an input into a computer for the creation and manipulation of sounds. It consisted of a digital graphics tablet connected to a monitor and to a computer that analysed and processed the data introduced via the panel, and generated audio from these.Footnote ⁴⁵ The user could draw on the panel a type of wave or the components of a timbre and the computer could process certain algorithms to invert, retrograde, transpose, or alter the parameters. Initially this process did not occur in real time. The UPIC became functional in 1977.

Conversely, Fernando von Reichenbach's Catalina was undoubtedly one of the most notable inventions developed at the Di Tella Institute. The machine could convert graphic notation into sound by connecting a closed-circuit television equipment, a paper transport that moved drawn graphics across the lens of the camera, and voltmeters that followed the parameters of a score. The visual signal was turned into black and white, which analogically controlled the fluctuation of voltage. These voltages could be used to trigger generators, filters, and modulators. Three works survive that were composed with Reichenbach's analogue graphic converter: Analogías paraboloides by Caryevschi, Mnemon I by José Ramón Maranzano, and La panadería by Eduardo Kusnir, all written in 1970.Footnote ⁴⁶ Gabriel Brnčić, who had official worked for CLAEM since 1969 but had helped with classes in prior years, remembers that the initial testing took place with a trombonist named Camaleón Rodriguez to create curious sounds and effects. As a tutor in the electronic music studio, Brnčić remembers having first helped Kusnir learn how to use the converter for the composition La panaderia, and then helping Caryevschi and Maranzano. Brnčić himself completed all the tape parts for his composition Dialexis (1967) for tape and symphonic orchestra, which he still has. However, he remembers that he was ‘never able to make the final mix of the tape parts … I could not do it in Europe both because I retrieved the tapes many years later, and because I needed a lot of technology so that was just left like that’.Footnote ⁴⁷

The project to create the machine was mentioned for the first time in documents dated 19 April 1968. Von Reichenbach wrote:

The materials to build Catalina are listed in an internal memo from August 1968, titled ‘Urgent USA purchases’ under the subtitle, ‘New Project’. The materials include a closed-circuit TV camera (Ampex Vidicon), three Moog units (oscillator, amplifier, and filter controlled by voltage), and two sets of Dixon field-effect transistors.Footnote ⁴⁹ In January 1969, Reichenbach wrote that the converter

It is plausible but not certain that von Reichenbach's machine influenced Xenakis and his UPIC. The dates demonstrate that the converter did not yet exist at the time of Xenakis's visit. In fact, the Electronic Music Laboratory was likely in the process of being remodelled by von Reichenbach, a process that ended in 1967.Footnote ⁵¹ However, Xenakis would have been able to see part of the work that the Argentinean engineer was already doing with respect to optic controllers and sound production. By April 1966 an automated audio mixer was already working at the Di Tella Institute. The machine, invented by von Reichenbach used photoresistors to control the volume and dispersion of the audio in multiple loudspeakers. A tape was programmed relatively simply, with pieces of dark plastic, and controlled the intensity of light that reached each photoresistor, thus regulating the volume of each channel. Reichenbach called this machine the ‘Sound Level Photoprogrammer’ and published an article about it in the journal Electronic Music Review.Footnote ⁵²

On the other hand, neither Xenakis's nor von Reichenbach's projects were necessarily unique. The history of thinking about the correspondences of sound and light (whether synaesthesia, ekphrasis, or ‘translating’ visual sources into sound) certainly date back to antiquity, a more recent history of constructing devices to turn images into music could be traced back to Alexander Scriabin's ideas about a unified sound and light theory.Footnote ⁵³ The Russian composer, although mostly concerned about synesthetic experiences, inspired various researchers to develop instruments that mix optics and audio. In Leningrad, around 1932, Yevgeny Sholpo (1891–1951) and Georgy Rimsky-Korsakov (1901–65) developed the Variophone in which waves were cut into cardboard discs that rotated in sync with 35mm film. In the United States, around 1945, John Hanert (1909–62) designed a synthesizer for the Hammond Organ Company that took information for height, duration, timbre, and intensity from graphite strokes marked on 11×12 in. paper cards. In 1958, Russian Yevgeny Murzin (1914–70) developed the ANS synthesizer (named using Alexander Nikolayevich Scriabin's initials). The instrument would synthesize sounds through waves drawn on glass discs and achieved a polyphony of 720 simultaneous tones, with a minimum distance of a sixth of a semitone between them. In England, engineer and composer Daphne Oram (1925–2003) designed a machine called Oramics in 1959. The composer painted over ten 35mm films that passed synchronously over photoelectric cells generating a charge that controlled the frequency, timbre, amplitude, and duration of sounds. The Graphic I was already in the Bell laboratories by 1965, designed by William Ninke together with Carl Christensen and Henry S. McDonald to be used by Max Mathews (1926–2011) as a graphic interface for his MUSIC IV. In addition, there are plenty of public references to machines that predated Xenakis's work. However, none of those I have been able to consult contain any record that includes von Reichenbach's creative inventions. Obviously, the idea of monogenesis is not necessarily valid, and it is quite possible that many of the experiments cited here had appeared independently. At the same time, the possibility that these composers and inventors, immersed in a broadly transnational musical tradition, were aware of developments in other latitudes cannot be ruled out. The interaction between Xenakis and von Reichenbach, and the interest that the Greek composer demonstrated for the engineer's work, is easily confirmed in conversations with composers who were at CLAEM during this period. For the time being, it has been impossible to verify what type of discussions the two composers had, or if in later years the two stayed in contact. As far as I could find, Xenakis never mentioned von Reichenbach when referring to his UPIC. However, it is difficult to believe that such creative minds, with interests that resulted so curiously similar despite stemming from very different questions, would not have discovered in their meeting such a tremendous source of common inspiration.

* * *

This brief examination Xenakis's visit to Argentina provides several insights into the transnational nature of avant-garde Western art music in the mid-twentieth century. Actual, on-the-ground experiences within the contemporary music scene of a city such as Buenos Aires challenge assumptions about the peripheral nature of such locales within the circuits of circulation of this musical tradition.Footnote ⁵⁴ Xenakis's music had been performed, disseminated, and criticized by the time he visited, and music critics and journalists were aware of the significance he had inside this art world. Understanding the kind and the extent of the interactions he had with composers at CLAEM fleshes out ideas about influence that might otherwise seem vague and opaque. While brief statements in biographical entries that list former professors or guiding figures might provide insight into the genealogies of compositional creativity, I argue that it is through oral histories and ethnographic work that we gain clarity on how these interactions shape and change the people involved. In a similar way, while the evidence of interaction between Xenakis and von Reichenbach proves to be inconclusive in telling us if and how von Reichenbach's inventions furthered Xenakis's imagination leading to the creation of UPIC, it does bring into the foreground the absence of von Reichenbach's work in the scholarship of graphic-based technologically mediated composition.

Finally, in terms of historical echoes, it is surprising how a place such as CLAEM remains a footnote among significant meeting sites for people invested in contemporary music during this time. There should be little need to argue that CLAEM occupies similar formative and impactful status within the post-Second World War avant-garde as events or parallel institutions such as the Darmstadt Summer Courses, the Donaueschingen Music Festival, or IRCAM. Composers who participated directly in CLAEM's activities (e.g., Xenakis, Nono, Copland, Messiaen, Maderna, Dallapiccola, Vladimir Ussachevsky (1911–90) or Mario Davidovsky (1934–2019)), or those who interacted with the institution or its fellows indirectly (e.g., Cage, Stockhausen, Schaeffer, or Mumma) were aware of its importance as can be verified by their published and unpublished accounts and letter exchanges. This indicates that CLAEM's absence in current narratives about the avant-garde is a musicological blind spot worth revisiting.