Lacan Builds a Circuit
Chapter 0.11a
CYBERNETICS AND THE UNCONSCIOUS – LACAN
To briefly recap: In the nineteenth century Samuel Butler and Alfred Wallis proposed that evolution and the steam engine are governed by the same principle. Nearly a century later the full implications of this observation begin to have their impact. Here we will consider how Gregory Bateson and Jacques Lacan addressed the implications to post-cybernetic psychiatric discourse. In Communication: The Social Matrix of Psychiatry (1951) Bateson charted the epistemological changes that were taking place to the practices of psychoanalysis and psychiatry and Lacan described the evolution of a discourse from that of the discourse of knowledge to that of the machine. As we learned in the last chapter, Lacan’s approach was tied to the discourse of cybernetics, and as he concludes Seminar II, with his lecture of Cybernetics and the Unconscious, the cyberneticians are close at hand. It is curious, given the title of the lecture, Cybernetics and the Unconscious, that rather than addressing the work of the cyberneticists, Lacan directs our attention to the pre-genesis of the science of cybernetics proper, namely the development of that branch of the human sciences that Lacan terms “conjectural science”. Here Lacan refers to a group of disciplines developed during the 17th and 18th century that deal primarily with probability. To provide context, Lacan explains the stages preceding the era of conjectural science (1) animistic order (2) exact science (3) conjectural science. In animistic society, humans linked their fate with the actions of the universe: in this world the position of the stars and the planets had a direct effect on humans and, perhaps more importantly, the actions of humans had an effect on the universe: The dances of spring and the speech acts performed at them would ensure the fertility of nature. In the animistic world humans assumed their actions could control the “real”. In this world the human “pretended to be indispensable to the permanence of the law.”1 The animistic world is superseded by the world of exact science. In the world of exact science the operations of the real are understood to be independent of human actions. The real, which is always found in the same place, is present with or without human actions (and is present whether those actions are actual or symbolic). The order of science is born “when man thinks that the great clock of nature turns by itself.” This is the point at which man gains a greater understanding of nature and at the same time is alienated from it. It is at this point that the “laws” of science begin to take effect on human subjectivity. Lacan sets up a dialectical relation. Invoking Hegel’s master-servant, in officiating over nature “man [in the era of exact science] has become the officious servant. He will not rule over it, except by obeying it. And like a slave, he tries to make the master dependent on him by serving him well.” 2 Conjectural science – in contrast to the animistic world and to the world of exact science – emerges once what is always found in the same place is “substituted by the science of combination of places as such.” If in the past symbols stayed where they were intended to be, the world of the symbol is now organized around a ratio –the “correlation of absence and presence” (this will later be identified as the 0 and 1) here symbols have the ability to “fly on their own wings”.3 This is the next stage in the alienation of the subject from the world, because the symbolic system that speaks the world is exterior to the subject who speaks the world. To describe how signification comes into being in this new symbolic world Lacan introduces three notions which have a direct relation to the cybernetic creatures Lacan has been discussing earlier in the seminar: scansion, the notion of [rapid] reiteration, the turn and the circuit. In the order of conjectural science: “[the symbol] arises in an ordered register which assuredly assumes the notion of the turn that is, the notion of scansion.” 4 The notion of turning and scanning correspond to the motion of the photocell on Grey Walter’s tortoise, which provides a feedback loop through repetition and insistence which situates the cybernetic tortoise, M. Specularis, in a specific space and time (the material circuit). 5 The figure of the ‘ordered register’ has been recurrent in the seminar: the chain of 1s and 0s, the chain of +s and¬ –s – which establish a pattern, a syntax, from which signification can arise – is central to the cybernetic tortoise and to SEER. Such an ‘ordered register’ moves in a circuit, which Lacan goes to some pains to describe. Doors, enclosure = circuit In chapter six we established that Bateson, in Communication: The Social Matrix of Psychiatry, rebuilt the Freudian subject in a circuit of communication. Beginning with what Bateson termed “numerous interdependent and self-corrective circuits”, it is then possible to rebuild the theory, “starting with entropy considerations.”. These “numerous interdependent and self-corrective circuits” represent neural function, as outlined by the McCulloch-Pitts model, and as modelled in the real world by the scanning action of Grey Walter’s tortoise. Lacan follows a similar procedure as Bateson had done Communication: The Social Matrix of Psychiatry. Lacan builds his circuit from first principles, beginning with the switch. This is provided by the figure of the door which can be open or shut (a binary operation). But there is an asymmetry to its opening and closing because it opens on to both the real and on to the imaginary-symbolic. Lacan illustrates how the door is laden with a great degree of “symbolic ballast” which accords it its asymmetry. A door, once introduced into the circuitry of the symbolic order, can never be simply a door. 44 Lacan next extends the function of the door and introduces the figure of an enclosure, comprising an opening door and a closing door, two switches which constitutes a circuit. These doors, in their opening and closing “interrupt themselves”. This opening and closing allows passage and introduces oscillation.6 Lacan next translates the opening and closing of the door into the notation of 0 or 1 (presence and absence). Lacan explains how binaries in sequence form a map of a circuit and how, with the addition of the “fairy” of electricity – the rapid reiteration (the turn) which produces scansion (pattern)– these symbols make their introduction into the world of the real. Lacan: “once we have the possibility of embodying this 0, this 1, the notation of presence and absence, in the real, embodying it in a rhythm, a fundamental scansion, something moves into the real, and we are left asking ourselves […] whether we have a machine that thinks.” People had been asking the question of Grey Walter’s tortoise and of Ross Ashby’s homeostat (see chapter fifteen) at the Macy Cybernetic conferences. With the advent of performative, cybernetic machines a new technical standard for thinking emerges. Such machines ‘move into the real’ insofar as they are able to cross from the symbolic: the absence or presence of a light signal, the pulse of on or off (as with the tortoise), or + or – (as with SEER), they perform in the world. We might on reflection decide that such a machine does not actually think, as Gray Walter was the first to point out, but after re-evaluating what we think thinking is, we must concede that “[w]e follow the very same procedures as the machine.”7 The circuit of the machine becomes the material site of the “trans-subjective” in the following way. Lacan: “Through cybernetics, the symbol is embedded in the apparatus – with which it is not to be confused, the apparatus being just the support. And it is embodied in it in a literally trans-subjective way.” It was precisely this effect that Lacan had produced earlier in the seminar on the Purloined Letter, when he had invited participants to play odds and evens and to record the results as + and –, and when he had written out the triads of 0s and 1s during the lecture.8 Lacan identifies the material support for thought which produces a surfeit and which performs in the world. WIENER – LACAN In discussing the importance of conjectural science to cybernetics, readers of Norbert Wiener will recognize the structure of Lacan's argument. The cyberneticians (Wiener and McCulloch in particular) were very thorough in explaining how their practices relate to their antecedents (the practitioners of what Lacan termed “conjectural science”). In Cybernetics (1948) Wiener, cites Leibniz as a principle influence9, and was indebted to him for two principle concepts bequeathed to cybernetics: 1.) universal symbolism and 2.) the calculus of reasoning. From these two we derive in the modern era: 1.) mathematical notation and 2.) symbolic logic of Boole and Russell 10 Here it is worth charting a brief history in order to illuminate the interest Wiener and Lacan shared in “conjectural science”11 In 1678 Leibniz wrote speculatively of “a certain script of language that perfectly represents the relationship between our thoughts” [through] “such encoding, logical falsehoods would be instantly exposed. The characters would be quite different from what has been imagined up to now.… The characters of this script should serve invention and judgment as in algebra and arithmetic.… It will be impossible to write, using these characters, chimerical notions [chimères]. ” 12 In 1847 George Boole published Mathematical Analysis of Logic, Being an Essay Towards a Calculus of Deductive Reasoning and De Morgan published Formal Logic: or, the Calculus of Inference, Necessary and Probable. Following Leibniz's ideal, both publications introduced a mathematics of logic expressed by symbols as opposed to a mathematics of quantity expressed in numbers. This allowed for the construction of formulations which would expose logical falsehoods.13 The sense that such a script (symbolic logic) would be an accurate expression of thought was pursued further by Boole, whose Laws of Thought appeared in 1858. The notion that natural language was a code that could be improved upon, and that a code could approximate the speed of thought itself, re-emerged at a time when Morse code was in operation across the electronic “nervous system” of the telegraph. This was also at a time when newspapers, employing that same telegraphic system, engendered a new “economy with words” which was linked to the economy of information14 This was also a time in which the achievements of Lovelace and Babbage had allowed the discourse of thinking to enter that of ‘thinking machines’. It was in the 1850s that the nervous system of humans became integrated into that of the telegraph, along with that of encoded systems of communication which were not text or number based but were dependent on the simple fact of a signal being on or off (absent or present). Just as psycho-scientific machines were redefining the human mind and reaffirming its proximity to the human brain, language was being reimagined as a code that could be run on non-human systems. For Wiener, Pascal’s interest in making machines such as the Pascaline (his calculating machine), “in the metal”15 links the production of such machines with the development of mathematical logic which led to “ideal or actual mechanization of processes of thought.” 16. 17 It is this mechanization of thought, the idea that messages could travel at the speed of human thought, that unites Wiener and Lacan in this moment in 1954-55. The idea that machines – after the Allen Turing’s conception of the universal machine in 1936 – were abstract and also material is vital to Lacan's reasoning 18 In The Nature of Explanation (1943) Edward Craik had theorised thinking as model making and that an essential capacity of neural machinery (be it begotten or man-made) is to model external events. A thought experiment is a hypothesis embodied in an instrument. “And if the instrument is constructed to confirm the hypothesis there is no need whatever to do the experiment which confirms it, since the very fact that it works confirms the hypothesis.” 19 The human capacity to model means that every iteration of the model need not be built, it is enough to simply provide proof of concept before moving to the next stage. This ability to make conceptual models – of which Turing’s plan for the Universal Machine is a prime example –sets humans apart from other animals. The dumb beast is condemned to pass through countless iterations as it goes through the process of evolution. Even when accelerated by Manelian genetic adaptation they are stuck in an energetic jam. The human capacity to conceptualise, to save time, energy and life (as Craik put it), allows humans to transcend this evolutionary pickle. The process begins in the sphere of the symbolic and very quickly enters the world of the real, where symbols proliferate and procreate. In their extremity such proliferations establish their own forms of symbolic life, which operate independently of the organism that hosted their development. Here the symbolic circuits with the real, as one encodes the other, in the homeostatic process described by Craik and McCulloch. The letter that has not been sent can solicit a response just as much as the letter that has been sent. Furthermore, it takes no energy not to deliver the letter. The consequences of not sending in your tax returns, for instance, are material and will set off a chain of activity which will be significant. In his discussion of Poe’s Purloined Letter, Lacan had demonstrated how the very existence of a letter, as a machine for intersubjective interaction, produces the conditions for a chain of material actions to take place independently of the subjects it may concern. (see chapter Y).
Automata provide a model for this subject-positioning in that they do not modal or demonstrate a principle but rather exist as performative agents; as unconscious actors in communication with humans (as with SEER). Cybernetics had caused a revolution in our understanding of machines, to the extent that we now encounter machines which act intersubjectively with humans. The machines built in the cybernetic era (from Grey Walter’s Tortoise to the Ross Ashby’s Homeostat), even if they do not think, behaved in the manner organisms equipped with a nervous system might behave, which demands a re-evaluation of what thinking is (in short, we are less inclined to essentialise consciousness). During the Macy conferences Ashby had insisted that behavior evidenced thinking, which allowed Bateson and others to reconsider the co-extensive nature of “mind”. Furthermore, as with the Turing Machine, machines hitherto act as performative thought experiments, which can function even before they are built (if they are ever built). This is conserves energy, contributing to what Edward Craik had described as the “down-hill” function of the human ability to make models of reality. For Lacan, cybernetic machines make a claim on the real and embody trans-subjectivity as they circuit through the real and symbolic.20 Conclusion: Leibniz, Wiener and Lacan: the chain of signification in – and – [write link] Lacan, therefore, understood the importance of “conjectural science” in terms that were close to Wiener. For both, cybernetics represented a method in which order and prediction could be introduced into processes which break with newtonian cause and effect and linear (teleological) temporality.24 It is precisely the distinction between the deterministic epistemology of cause and effect and the indeterminate epistemology of the conjectural sciences that Lacan picks up on in his lecture, introducing his own contextualization of cybernetics in relation to the work of mathematicians of the 16th century. For Lacan, what distinguishes conjectural sciences from the exact sciences is that they deal with the co-efficient elements within a given system. For instance, let’s consider Condorcet’s system of political economy: if there are a given number of candidates and a given number of voters it is possible to predict the probable winner. If, for instance, we imagine candidates A, B and C we can calculate how many votes will probably be lost to candidate C which will allow candidate A victory – leaving candidates B and C holding their rosettes (unless they have calculated for a coalition). Now, let’s imagine two players are competing for money in a card game, they want to finish the game early because the current circumstances of the game suggests that it would be beneficial for both parties to divide the stakes equally. After this point it is possible for each player to calculate his or her chance. The interruption of the game has changed the odds of any subsequent game – the odds are now calculable by both players – the game of chance becomes a game of probability. Both the instances of the polling booth and the card table require conjecture made possible by the conditions of the system. Although both the polling booth and the card table are real situations, and the players are real people, the polling booth and the poker table provide systems that are independent of the subject, even though the subject is the agent of change within those systems, and is bound to the material circuitry of the system, the degree of change is defined by the system – its parameters, the restraints, its modalities. The individual is a placeholder within a symbolic machine.25Under this order chance becomes an indeterminate law. For Lacan conjectural science differs from exact science because exact science is characterized by a concern for “where matter and motion come from”, which constitutes a different kind of law (the law of exact science being bound to the law of Newtonian time and cause and effect). Consequently exact science presupposes a notion of the real, and that the real is “something one always finds in the same place, whether or not one has been there” something which is always “well and truly in its place.”26This notion of exact place in exact science is bound to an essentialist notion of identity, just as there is a place for the thing which is itself (A=A), the place for the ‘real’ of exact science is always well and truly in its place. The situating of the real in exact science is in contrast to the indeterminate place accorded by conjectural science wherein something finds its place within a ratio of probability. 27 Lacan remains faithful to Wiener et al's conception of purpose and teleology28, which allows for circular causality, as opposed to the law of cause and effect, and it is in this action of circular causality, within this space of indeterminacy, that the machine (such as SEER) operates. Furthermore (in conjectural science or at the card table or in a game of odds and evens) the mathematical model of probability (the stochastic process) meets the actions of individuals who act within that system. From Pascal’s arithmetical triangle emerges the form of calculation “not of randomness, but of chances, of the encounter in itself” 29an encounter predicated on the conditions of the encounter. The exterior nature of the calculus, or the money system, the rules of the game, or the various systems of probability, are not only central to Lacan’s understanding of cybernetics but also central to his understanding of language in relation to human consciousness – that there are, in contrast to the Cartesian self-knowing subject, conditions (systems) which shape human life which are not necessarily human (but which are produced by humans), these are conditions in which language (the code, the calculus, the rules) exceed, extend beyond and precede the subject. Lacan playfully suggests that machines cannot think, but because when we think we follow the same procedures as a machine, neither do humans – both humans and machines follow an order which is independent of subjectivity. Cybernetics is therefore a 'science of syntax' and syntax, exists on a lower hierarchical level (precedes) semantics. Lacan: "meaning presupposes syntax, even if it is not reducible to it.” Here “meaning” is to be distinguished from what Lacan calls “the message” (which can be understood in cybernetic terms as “information” or “raw data”). A unit of information has no meaning in itself, it is the symbol that “flies”, the syntax that distinguishes absence from presence, 1 from 0. The symbol extracts something from the real by hollowing out its absence. It scans an absent/presence (0/1) which the subject must find its place within. At the end of the lecture Lacan asks: “What is the meaning of meaning? Meaning is the fact that the human being isn’t master of this primordial, primitive language. He has been thrown into it, Committed, caught up in its gears.” […] Lacan re-echoes the dialectic he had outlined earlier, which charts the passage from the animistic order to the order of conjectural science “We must marvel at the paradox. Here man isn’t master of his own house. There is something into which he integrates himself, which through its combinations already governs. The passage of man from the order of nature to the order of culture follows the same mathematical combinations which will be used to classify and explain."44
PSYCHOANALYTIC BATESON – CYBERNETIC LACAN
The previous chapters connect the psychoanalytic Gregory Bateson with the cybernetic Lacan. This, it turns out, is not such a challenge to reason as one might first suppose. Both are connected by a discourse on information and energy which had been gathering steam for over a century. Both Bateson and Lacan attempt to bring the psychic apparatus in line with contemporary medial conditions; both recognise Freud’s model of psychic energy as conditioned by a nineteenth-century emphasis on entropy (the postponement and inhibition of discharge); both recognise the stochastic nature of language; that language is exterior to and constitutive of the subject; both recognise regulation of system relies on the cycling of information through the circuit; that the subject is constituted within the threshold of restraints; both see organism and servomechanism as having a homological relation to each other (they have the same structure, they organise in the same way); both recognise the centrality of intersubjectivity, that the intersubjective is based on relation between things; for both the intersubjective is that element within discourse which is encoded – the symbolic systems which are circulated and shared; for both the ‘self’ is produced as a defence (or buffer) against the realization that its place in the symbolic chain is systemic; these considerations lead both Bateson and Lacan to transcend Cartesian dualism and to propose a 'self' which is wholly constructed through a process of encoding; both Lacan and Bateson understand the 'self' is bounded within an arbitrary limit; in Lacan the self finds its place within the symbolic system (in the manner of an algorithm = S/s); both recognise division is encrypted into the code of unity; both posit a materialism in which the symbolic (codification) is a principle actor.
Bateson's “mirror of consciousness” and Lacan's “alienated unity” guard against an encounter with the real, and both require a mediator with the real, for Lacan an interface through which the real, which refuses signification, is processed. Similarly, for Bateson the self is structured to conserve itself. It is hard for us to process or compute the reality that the subject is generated within a system of restraints and knowledge of this addressees our radical break with essential identity.1
Note earlier in the text, in line with Boole &c: Language is a code that translates into a stochastic system which can be broken down into a minimal syntactical elements (such as -- &- or +&- or 1 or 0); a system of probability. In “The Function and Field of Speech and Language in Psychoanalysis,” (The Rome Discourse) of 1953 Lacan had cited koua, the ancient Chinese characters which comprise yin (--) and yang (–) 21 Leibniz had equated the koura as a means by which the mathesis universalis, in which all knowledge could be read through a binary symbolic system, could be achieved. Wiener, in Cybernetics22 would later interpret this as an imperfect early rendition of post-war cybernetics23 For Wiener Leibniz's conception of the mathesis universalis was one of the many steps in the procession to the cybernetic explanation. For Wiener the periodization ran via Leibniz, Babbage-Lovelock, Boole, Gibbs, Russell (as cited above).
1 Lacan Lecture 297 2 Footy here 3 In the seminar, Lacan had used the term “fly paper” to describe the symbol in the context of cybernetics. 4 Lacan Lecture, 299 5Wiener, Bateson and McCulloch use the notion of scanning as a function of perception which distinguishes figure from ground and relates to the cycling of information through the nervous system as described in McCulluch -Pitts’. 6 Lacan Lecture 302 7 Lacan lecture 304 8 + the electric charge allows oscillation to occur; + relate this to the organization of the SEER +the electric charge allows a rapid organization; the symbolic is divorced from the human subject – [this dialectical in the sense that we see stages of separation from the real /symbolic = animism/exact science/ conjectural science = in three stages,] leading us to ask, “can machines think?” [at stake here is to be or not to be = on or off] the passage from the door as symbol to the 0 and 1 as performative units of information (what Bateson terms “the difference that makes a difference”) is a lesson in v 9 Wiener in, Cybernetics (1948) repeatedly cites Leibniz as presaging the technical standards of the 20th century. That the calculus ratiocinator precedes the machina ratiocinatrix (reasoning machine) of Wiener's time p4 10 N. Wiener, Cybernetics, 102 11 Leibniz is also a central figure to Guilbaud and Wiener, because his work on calculus and symbolic logic, although only made public in the late 19th Century, was essential to the development the branch of mathematics which established the modern era of communication. 12 Leibniz in J. Gleik, The Information: A History, a Theory, a Flood, 2011 13 Gleick.240 14 Gleick. Information / Cary on Telegraphy 15 Cite and quote 16 Wiener in Elmer 102 (my emphasis) 17[this relation between the ideal and actual also relates to Bateson’s preference for the word “circuit”, which requires a material connection, as opposed to simply “feedback” which could be purely informational. 18Note: this trajectory is mirrored in Bateson's account of the development of the contemporary subject in Matrix. Such machines also introduce the idea of performativity and agency 19 Lacan Lecture, 298 20 [relate this also to Bateson’s matrix] 21 Lacan had studied Chinese and gained a degree in the subject during WWII, Liu 310 22Cybernetics - cite 23Leibniz had mistaken the true nature of the koura 24 See: Jonathan Elmer: Blinded Me with Science: Motifs of Observation and Temporality in Lacan and Luhmann Author(s): Cultural Critique, No. 30, The Politics of Systems and Environments, Part I ,Spring, 1995, 102 25I. Hacking Emergence of Probability 26Lacan Cybernetics and the Unconscious 1955 27 I. Hacking The Emergence of Probability 28 (<see chapter one] 29 Lacan Cybernetics and the Unconscious 1955 30 (70) Johnston 31 (Pasted from notes) Mediator = symbolic This is also the circuit of Levi-Strauss' 'elementary structures of kinship; this is the function of the transvestite in Bateson's Naven. 32(74) 33Lacan in Johnston 72 3472 35 Jonathan Elmer: Blinded Me with Science: Motifs of Observation and Temporality in Lacan and Luhmann Author(s): Cultural Critique, No. 30, The Politics of Systems and Environments, Part I ,Spring, 1995, 102 36 104 - Fanant {121} See also Smith Theory of Moral Sentiment 37 Elmer (104) 38 Elmer (104) 39F in Elmer (107) 40 Emler 105. Consider also Leibniz, Russell, Turing in line with = DN 1.2 and 3 41Bateson, of course, follows the contours of this graph 42 (111) 43 (112) 44 Here Lacan references Levi-Strauss’ elementary structure of kinship