This system is premised on the unspoken assumption that the dirty, sweaty men down below cannot make sound decisions. Only those higher in the hierarchy are to be trusted with judgment or discretion. Officials at the top make the decisions; men at the bottom carry them out. One group represents the brains of the organization; the other, the hands.

This typically bureaucratic arrangement is ideally suited to solving routine problems at a moderate pace. But when things speed up, or the problems cease to be routine, chaos often breaks loose. It is easy to see why.

First, the acceleration of the pace of life (and especially the speed-up of production brought about by automation) means that every minute of "down time" costs more in lost output than ever before. Delay is increasingly costly. Information must flow faster than ever before. At the same time, rapid change, by increasing the number of novel, unexpected problems, increases the amount of information needed. It takes more information to cope with a novel problem than one we have solved a dozen or a hundred times before. It is this combined demand for more information at faster speeds that is now undermining the great vertical hierarchies so typical of bureaucracy.

A radical speed-up could have been effected in the foundry described above simply by allowing the worker to report the breakdown directly to the maintenance supervisor or even to a maintenance crew, instead of passing the news along through his foreman and production supervisor. At least one and perhaps two steps could have been cut from the four-step communication process in this way – a saving of from 25 to 50 percent. Significantly, the steps that might be eliminated are the up-and-down steps, the vertical ones.

Today such savings are feverishly sought by managers fighting to keep up with change. Shortcuts that by-pass the hierarchy are increasingly employed in thousands of factories, offices, laboratories, even in the military. The cumulative result of such small changes is a massive shift from vertical to lateral communication systems. The intended result is speedier communication. This leveling process, however, represents a major blow to the once-sacred bureaucratic hierarchy, and it punches a jagged hole in the "brain and hand" analogy. For as the vertical chain of command is increasingly by-passed, we find "hands" beginning to make decisions, too. When the worker by-passes his foreman or supervisor and calls in a repair team, he makes a decision that in the past was reserved for these "higher ups."

This silent but significant deterioration of hierarchy, now occurring in the executive suite as well as at the ground level of the factory floor, is intensified by the arrival on the scene of hordes of experts – specialists in vital fields so narrow that often the men on top have difficulty understanding them. Increasingly, managers have to rely on the judgment of these experts. Solid state physicists, computer programmers, systems designers, operation researchers, engineering specialists – such men are assuming a new decision-making function. At one time, they merely consulted with executives who reserved unto themselves the right to make managerial decisions. Today, the managers are losing their monopoly on decision-making.

More and more, says Professor Read of McGill, the "specialists do not fit neatly together into a chain-of-command system" and "cannot wait for their expert advice to be approved at a higher level." With no time for decisions to wend their leisurely way up and down the hierarchy, "advisors" stop merely advising and begin to make decisions themselves. Often they do this in direct consultation with the workers and ground-level technicians.

As a result, says Frank Metzger, director of personnel planning for International Telephone and Telegraph Corporation, "You no longer have the strict allegiance to hierarchy. You may have five or six different levels of the hierarchy represented in one meeting. You try to forget about salary level and hierarchy, and organize to get the job done."

Such facts, according to Professor Read, "represent a staggering change in thinking, action, and decision-making in organizations." Quite possibly, he declares, "the only truly effective methods for preventing, or coping with, problems of coordination and communication in our changing technology will be found in new arrangements of people and tasks, in arrangements which sharply break with the bureaucratic tradition."

It will be a long time before the last bureaucratic hierarchy is obliterated. For bureaucracies are well suited to tasks that require masses of moderately educated men to perform routine operations, and, no doubt, some such operations will continue to be performed by men in the future. Yet it is precisely such tasks that the computer and automated equipment do far better than men. It is clear that in super-industrial society many such tasks will be performed by great self-regulating systems of machines, doing away with the need for bureaucratic organization. Far from fastening the grip of bureaucracy on civilization more tightly than before, automation leads to its overthrow.

As machines take over routine tasks and the accelerative thrust increases the amount of novelty in the environment, more and more of the energy of society (and its organizations) must turn toward the solution of non-routine problems. This requires a degree of imagination and creativity that bureaucracy, with its man-in-a-slot organization, its permanent structures, and its hierarchies, is not well equipped to provide. Thus it is not surprising to find that wherever organizations today are caught up in the stream of technological or social change, wherever research and development is important, wherever men must cope with first-time problems, the decline of bureaucratic forms is most pronounced. In these frontier organizations a new system of human relations is springing up.

To live, organizations must cast off those bureaucratic practices that immobilize them, making them less sensitive and less rapidly responsive to change. The result, according to Joseph A. Raffaele, Professor of Economics at Drexel Institute of Technology, is that we are moving toward a "working society of technical co-equals" in which the "line of demarcation between the leader and the led has become fuzzy." Super-industrial Man, rather than occupying a permanent, cleanly-defined slot and performing mindless routine tasks in response to orders from above, finds increasingly that he must assume decision-making responsibility – and must do so within a kaleidoscopically changing organization structure built upon highly transient human relationships. Whatever else might be said, this is not the old, familiar Weberian bureaucracy at which so many of our novelists and social critics are still, belatedly, hurling their rusty javelins.

If it was Max Weber who first defined bureaucracy and predicted its triumph, Warren Bennis may go down in sociological textbooks as the man who first convincingly predicted its demise and sketched the outlines of the organizations that are springing up to replace it. At precisely the moment when the outcry against bureaucracy was reaching its peak of shrillness on American campuses and elsewhere, Bennis, a social psychologist and professor of industrial management, predicted flatly that "in the next twenty-five to fifty years" we will all "participate in the end of bureaucracy." He urged us to begin looking "beyond bureaucracy."

Thus Bennis argues that "while various proponents of 'good human relations' have been fighting bureaucracy on humanistic grounds and for Christian values, bureaucracy seems most likely to founder on its inability to adapt to rapid change ...

"Bureaucracy," he says, "thrives in a highly competitive undifferentiated and stable environment, such as the climate of its youth, the Industrial Revolution. A pyramidal structure of authority, with power concentrated in the hands of a few ... was, and is, an eminently suitable social arrangement for routinized tasks. However, the environment has changed in just those ways which make the mechanism most problematic. Stability has vanished."