The Silicon Jungle by David H. Rothman

6. The possibility of a detached retina

1106 words | Chapter 104

Yearly, the doctor should test for refraction, acuity, and accommodation. Make sure your health insurance covers bifocals and other glasses that your employees wouldn’t need except for your CRT. CRTs: Should They Go Down the Tube? Yes. Not immediately. But sooner or later. CRTs are harder on the eye than the better flat screens will eventually be, and although scientists haven’t proved that CRTs are a radiation threat, the small possibility remains. These bulky antiques, however, have been to the computer establishment what gas guzzlers were to Detroit. The CRT isn’t the most promising kind of computer screen—just the most entrenched.[47] Footnote 47: Information on flat-screen displays comes from _InfoWorld_, May 7, 1984, and other micro magazine articles; the _Washington Post_ of April 29, 1984; George Weiss, director of computer systems studies with Quantum Science Corp., New York; and Kenneth Bosomworth, president of International Resource Development, Inc., a market-research firm in Norwalk, Conn. Admittedly, CRTs have improved to the point where some pocket-sized TVs can use them. But in compactness and low-power consumption, CRTs will never rival the flat-screen displays. “People will begin using flat-screen portables as regular desktops,” a New York researcher correctly says.[48] Flat-screen computers may not be as viewable now as the best CRT displays, but this may quickly change. What’s more, flat-screen machines don’t hog desks as the Kaypro II-style portables can. After all, the flat screens are essentially—flat. They don’t need hefty transformers, moreover, and don’t burn out like old vacuum tubes. CRTs _are_ vacuum tubes. Low voltage is still another plus of most flat screens. Not that CRTs are normally a shock hazard, but you’ll presumably feel safer if you didn’t sit near a 20,000-volt gizmo flinging electrons around inside some glass. Footnote 48: The “people will begin using” quote is from a Weiss interview with _USA Today_. Also, as David LaGrande, an official with the Communications Workers of America notes, flat screens may “eliminate the radiation danger, reduce the risks for pregnant women.” And unless you spray a flat display with radioactive material, it just won’t give you cancer. Again, no one’s proved that CRTs will turn people’s bodies into tumor farms. But why gamble? Your caution won’t hurt labor relations. Flat screens, also, don’t flicker tiresomely as many CRTs do, and someday they may boast more fully formed images than those from the CRTs. So you might make fewer errors reading material from the screen. The word “might” is important. Many =liquid-crystal displays=—=LCD=s, like the wristwatch kind—showed much cruder images in 1984 than did typical CRTs. The broken-up letters might bother you just like those from the cheap dot-matrix printers. Also, some LCDs offered horrid contrast between the screen background and your typing. That was as of late 1984. Even cheap LCDs in the future could do away with the breakup and contrast problems. Already the Japanese are selling color TVs with LCDs. Perfected, LCDs could make computerized offices brighter and cheerier. They don’t glow. Rather, they reflect light, just like paper, so you needn’t darken the office. In fact, light helps.[49] Footnote 49: For a reminder of the advantages of LCDs in avoiding a dark office, I’m grateful to Bert Vorchheimer, a corporate communications specialist, who, as a sideline, wrote some farsighted articles on office ergonomics. And if LCDs don’t fully pan out? There’s yet another choice—=electropheretic= screens, which may offer decent contrast and even beat CRTs’ sharpness. Here’s the theory. A magnetic charge pushes tiny particles to the surface of the screens, and patterns of particles form images. These gizmos will tax your battery less than some other flat-screen displays do. And listen to this: when you turn an electropheretic off, it _remembers_. The images on your screen don’t vanish. Now, combine that wrinkle with memory chips that use next to no power and can be running all the time. And what do you have? A computer that will automatically shut off without harm if you didn’t tap a key after a certain stretch of time. Just like a calculator. So—battery makers, beware! There are still other alternatives to CRTs. One is the =electroluminescent= screen—used on the Grid Compass portable—which glows and is sharper than the LCD. Electroluminescents in 1984, however, were far too expensive for the average computer buyer; the Grid was selling for $4,250, and much of that was the cost of the display. A second failing of electroluminescent screens is that they’re electricity hungry. You can’t operate them with miniature batteries. Another LCD alternative is the =plasma panel=, which glows with a gas mixture consisting mainly of neon. Plasmas don’t flicker. The characters are sharp; the contrast, excellent. But backup circuitry has been expensive; and even small plasmas, with the accompanying electronics, cost several thousand dollars in 1984—a far cry from a $150 CRT monitor. To sum up, the main advantages of flat screens are their lightness, low power consumption in most cases, safety, lack of flicker, and very likely a better view in the long run. As of late 1984 the trade-offs (at least in the case of LCDs) were: ▪ The broken-up, somewhat fuzzy letters and the low contrast between them and the background. ▪ The need to have the display at just the right angle from you to get the sharpest picture. This could get in the way if you were moving the LCD to reduce glare. ▪ The comparatively slow speed with which letters or numbers appeared on an LCD after you’ve typed. ▪ The general lack of full-sized 24-line screens with 80 columns. The Data General portable debuted with 24 lines and a screen measuring 11 inches diagonally—a welcome exception, even if the quality of the characters still wasn’t good enough for heavy use. Since many flat screens were on portables, there were other ergonomic problems not related to the display technology per se. In late 1984, most flat-screen portables lacked detachable keyboards. But the limitations of LCDs were the main problems. A reporter friend, banging out stories for his paper at times in the field, told me he’s survived the 40-column, 8-line screen of the Radio Shack Model 100 very well. But I’m not surprised. He’s also brooked that clunky Select software, which gets in the way of corrections and insertions. Gene, you see, apparently knows what he’s going to write—he needn’t watch the screen as much. I wish I were as decisive. At any rate, what was right for Gene wouldn’t necessarily be right for a clerk who’ll be at the keyboard seven or eight hours a day. No matter what hardware and software you end up with, don’t lose sight of three goals, among others:

Chapters

1. Chapter 1 2. Chapter 7 and Backup VII, you’ll learn (1) the basics, (2) when charts 3. Chapter 12, “How I Found ‘God’ on MCI (and a Few Other Odds and Ends 4. 1. Bigger RAMs can work with more and larger numbers—a handy capability 5. 2. More RAM can accommodate programs more complicated for the computer. 6. 3. You may want the most sophisticated software to thwart computer 7. 1. You can quickly make safety copies of valuable disks—something that’s 8. 2. You can more easily work with long electronic documents. 9. 1. Absence of bugs. The software maker should have gotten all the bugs 10. 2. General ease of use. A program should be easy enough to learn _and_ 11. 3. Good documentation. The manual should be clear and logically 12. 4. Usefulness to beginners and old pros alike. You can adjust the best 13. 5. Speed. It lets you do your job fast, especially when you use it with 14. 6. Power. Related to speed. The program can quickly accomplish 15. 7. Fewer chances for botch-ups. Good programs limit the chances for 16. 8. The Jewish-uncle effect. Ideally, your software will slow you down or 17. 10. After-the-goof feedback. After you’ve botched up—and we all do 18. 11. Ability to customize. You or at least a software expert can 19. 12. Availability of “accessory” programs to make your original software 20. 13. Support. Ideally, the software seller will stand behind his product 21. 1. A =cursor= is just the marker on your screen—a blinking line, 22. 2. A =file= is an electronic version of a letter, report, or other 23. 3. A =control key= is what you start holding down to turn a letter or 24. 4. To =scroll= just means to move from place to place in your 25. 5. A =menu= lists commands on your screen. It can tell you how to 26. 6. A =block move= is the ability to move material from one part of 27. 8. A =search and replace= substitutes one word (or group of words) for 28. 1. When you work for a stuffy old bureaucracy that’s rich and afraid 29. 2. When you’re a procurement officer on probation. As they say, no 30. 3. When you want to dump the training problems in the manufacturer’s 31. 4. When you prefer an extra-large, extra-sharp screen and giant 32. 5. When you’re looking for a machine that will run special software 33. 1. It takes all of two or three minutes—maybe less—to copy a disk 34. 3. Computer users want to befriend others with similar machines so 35. 4. Many software companies overprice their wares. Yes, it’s expensive 36. 5. Some people in large companies think software houses don’t give 37. 6. Many software companies don’t offer enough guidance or other help. 38. 2. A file in a data base is the electronic version of a file drawer or 39. 3. A =field= is a category of fact like the amount of money spent on 40. 4. =Structure= is simply the way a record is set up. There are three big 41. 5. The EDIT command changes the contents of a data field. You can type 42. 6. A command to APPEND can add new records to your electronic filing 43. 7. =Sorting= lets you reshuffle records alphabetically, by date or other 44. 8. The LIST command tells dBASE II to flash across the screen the 45. 9. .AND. helps you narrow down the information you’re looking for or 46. 10. .OR. is another way to describe the desired facts. LIST FOR 47. 11. LIST FOR .NOT. SALE:PERSN = ‘BABBITT’ could help weed from view, or 48. 12. =Command files= are programs that tell the machine how to manipulate 49. 1. A large number of rows and columns. A spreadsheet of 254 rows and 65 50. 2. Speed. “Even with a simple spreadsheet,” says Scharf, “someone might 51. 3. General simplicity and ease of use. In tricky places, does the 52. 4. Range of commands. Most spreadsheets nowadays let you easily move or 53. 5. The ability to do what-if tables. The best spreadsheets won’t just 54. 6. Easy consolidation of figures from different spreadsheets. That’s no 55. 7. =Natural order of recalculation.= Cells must influence the numbers in 56. 8. A useful =macro language=. Macros are combinations of commands that 57. 1. Deciding whether to hire a computer consultant. How much in your time 58. 2. Hiring and using a consultant. It isn’t just a matter of asking, 59. 3. Training employees. Don’t clutter your people’s minds with 60. 4. Working with your company’s data-processing people. Know which 61. 1. The computer company’s FORTRAN, according to Stewart, was as badly 62. 2. FORTRAN wasn’t as good as BASIC for micro data bases that stashed 63. 3. Brown was still basically a mainframer. And micro FORTRAN was 64. 3. “What’s the quality of the work? 65. 1. Who’s teaching? Can he or she communicate well with the students, and 66. 3. Why is the material taught? To make your people computer literate in 67. 4. When do the students learn? On their time or yours? Will you reward 68. 5. Where is the learning happening? Ideally, your students can take the 69. 6. How do the students learn? Through instruction manuals, mainly, or 70. 1. Even the best-intentioned companies may fail miserably in easing some 71. 2. The traits which make somebody valuable to his company _may_ be the 72. 3. At the same time you can’t stereotype anyone—by age, folksiness, or 73. 4. An important part of training is simple salesmanship—persuading the 74. 5. Don’t make computerization seem more threatening than it has to be. 75. 6. As early as possible start people on real projects. The first day at 76. 2. Helped them with some learning aids like color-coded keys showing 77. 3. Motivated them by explaining how their new computer skills would make 78. 1. Before approaching Data Processing, ask who-how questions about the 79. 2. Ask your informal Data-Processing contact about possible technical 80. 3. When you’re ready to deal with the Data-Processing manager, tell 81. 4. Make it clear you’re aware of your project’s complications. 82. 1. =The canary-in-the-mine= theory of labor relations. Ergonomics is 83. 3. =“Terminal” happiness.= Detachable keyboards are just a start, 84. 7. =Air conditioning, heating, and ventilation=—basics neglected by a 85. 8. Honest assurances to your people that you’re exposing them to the 86. 9. A willingness to consider alternatives to the TV-like CRTs that 87. 10. Sensible use of wrinkles like the mouse—the hand-sized gizmo you use 88. 11. A related ingredient, good software—the topic of earlier chapters. 89. 2. How far the keyboard platform protrudes from the platform on which 90. 4. The angle at which the screen faces you. You can swivel away to your 91. 5. The height of your chair. You don’t of course need high-tech 92. 1. Removing half the tubes from existing fluorescent fixtures. You’ll 93. 2. Parabolic fluorescent fixtures with baffles to keep the light out of 94. 3. Parawedge louvers, which, according to Eisen, “have been particularly 95. 4. Desk and floor lamps. You might buy rheostats you can plug in between 96. 5. Indirect lighting. The disadvantage is the expense. You may have to 97. 1. Coatings or etching applied during manufacture of the video displays. 98. 2. Coatings put on after manufacture. Generally, but not always, they 99. 3. “Colored plastic panels and etched faceplates,” which, says Eisen, 100. 4. Micromesh filters, favored by German ergonomists. Eisen says U.S. 101. 5. Polarizing filters. They may reduce brightness and shorten tube life, 102. 1. There is a possibility, extra-slim, but still there, that 103. 2. More minor physical and mental problems from computers definitely do 104. 6. The possibility of a detached retina 105. 3. Guarding your electronic files 106. 1. Burden programmers and others with electronic versions of heavy 107. 2. Keep their computer systems easy to use—and vulnerable. (“Then you’re 108. 3. Compromise. (“You get half raped.”) 109. 1. How hard, exactly, would it be to puzzle out? Just how many 110. 2. How compatible is the program with your computer? If security is so 111. 3. Is the security program easy to use? If it’s too hard, it’ll be 112. 4. Are you certain the program won’t jeopardize the accuracy and 113. 5. Should you expand your system, will the security software be able to 114. 6. Do you want a =public key= encryption system? It works this way. You 115. 7. Will your code be based on the =Data Encryption Standard= (=DES=), 116. 1. See if your disk has a file at least 500 or 600 words long. If so, 117. 3. Erase A. 118. 1. Zealously enforce a no-drinking, no-eating policy around disks, at 119. 2. Remember the Rothman Dirt Domino Theory. Dirt, dust, and grease often 120. 3. Realize that floppies don’t always mix well with office materials 121. 4. Know about other natural enemies of floppies or at least of the data 122. 5. Don’t even let your floppies rest against your computer’s screen, 123. 6. Remember that the more information you can pack on a floppy, the more 124. 7. Clean your disk heads. Don’t use rubbing alcohol. “Try something like 125. 8. Have head alignment checked, to reduce disk errors. With heads out of 126. 9. Buy quality disks. Of course, the more you spend on disks, the more 127. 1. Every five minutes or so, type out the “KS” or an equivalent and dump 128. 2. Every half an hour make a printout of your recent work. With a fast 129. 3. Every day make your backup floppy. You might forget about the scratch 130. 1. Dumping to floppies. It’s cheap but slow. Then again, you can speed 131. 2. Transferring the Winchester’s contents to a special tape drive large 132. 3. Dumping to an ordinary videocassette recorder. Although slow, it’s 133. 1. How much time or money does it take to enter your data or set up your 134. 3. How much time or money do you have for copying, cleaning, 135. 1984. Many more companies might be. They might have kept quiet, however, 136. 1. The cottage keyers are paying more than $2,600 a year to rent their 137. 3. Likewise, the cottage keyers lack the normal fringe benefits. The 138. 4. The keyers may not be sharing the experiment’s rewards fifty-fifty. 139. 1. Ease and speed of use. You needn’t be a computer expert or wrestle 140. 2. Friendliness. A good system isn’t just easy to use; it’s also boy 141. 4. Confidentiality. Clerks aren’t privy to the same information as the 142. 1985. They’d be able to place mutual-fund orders for clients, conduct 143. 1. Lower phone bills. In a Midwestern office of the H. J. Heinz Company, 144. 2. Elimination of telephone tag. “We can type a memo at the end of our 145. 3. An end to garbled messages. Errors and misunderstandings decline when 146. 4. More efficient sharing of ideas. =Computer conferencing= is an 147. 1. How long a Kaypro took to sort dBASE II files electronically while 148. 3. How long a second Kaypro needed to sort the dBASE files in the first 149. 1. How extensive do you want your network’s file-sharing capabilities to 150. 2. Who’ll manage the network? Who’ll determine who can see what 151. 3. Do you want to assign special network-related duties to other people? 152. 4. Who will work at what =node=? That’s jargon for a location or =work 153. 5. Will some people share work stations? If so, you’d better decide 154. 7. How many printers and other gizmos will people share, and where will 155. 8. What kinds of computers are you planning to hook up? The WEB as of 156. chapter 11, but subject to court approval, would be bought by a Swedish 157. 1. If your computer messes up, remember the very last thing you did, 158. 2. See if that isn’t the answer to your problem. 159. 1. Know your prices. Study the want ads of the local papers. There’s 160. 2. Pay attention to the machine’s physical condition. A banged-up 161. 3. Find out how your pet programs run. If you don’t have any available 162. 5. Find out what generation of equipment it is. Does it include all 163. 6. Learn where you stand legally if you’re buying software with the 164. 7. Call up commercial auctioneers and find out if they’re holding any 165. 8. Obviously you’ll want to consider a maintenance agreement with a 166. 1. Another daisy wheel machine. The daisy wheel is plastic or metal and 167. 2. A =laser printer=. Typically, it works a bit like some copying 168. 3. A =thermal-transfer printer=. This uses patterns of heat to arrange 169. 4. An =ink-jet printer=. This kind literally squirts ink against the 170. 1. =Draft quality.= The letters are too dotty for anything but drafts 171. 2. =Correspondence quality.= It’ll do for a letter to a forgiving friend 172. 3. =Near-letter quality.= You can get away with it for book manuscripts, 173. 4. =Letter quality.= That’s typewriter quality. 174. 1. Does the printer offer them no matter what computer or program you 175. 3. For free, will the store modify your computer system to make the 176. 4. Will your desired combinations of features work simultaneously? 177. 2. If not, can the store make one up for you? At what cost? 178. 1. The general logic of the manual. The author should have written it 179. 2. The quality of the index. I’ll charitably assume it’s there to begin 180. 3. Simplicity of vocabulary and sentence structure. A manual shouldn’t 181. 1. The field may only contain certain numbers and/or letters—for 182. 2. The field will _enter itself_ based on your previous entries. For 183. 3. The field can be a constant. For example, if your data record 184. 4. The field can automatically shift cases for you. For example, you 185. 5. The field can insist that whatever you type in is identical two 186. 6. The field can be required—something that you _have_ to enter, or 187. 1. Does the program help you come up with pies, bars, or whatever kind 188. 2. Can it do so as quickly as possible? 189. 3. Does the program fit in well with your other software? 190. 4. How much memory space does the program—and the electronic files of 191. 5. What about the program’s color capabilities—both on screen and on 192. 6. Does the program coexist okay with the printer or plotter you own or 193. 7. How easy is the program to learn? What about the other general traits 194. 1. “Who?” Who from the contracting firm is doing the work? A junior 195. 2. “What?” Describe the task as clearly and precisely as possible. And 196. 3. “When?” Can you negotiate a penalty if the firm misses a deadline? 197. 4. “Where?” Will the consultants do the work in your office? Theirs? On 198. 5. “How much?” Obvious. 199. 1. Thinking small. Don’t bargain over the Who-How simply for the whole 200. 2. Making the consultant give you the source code of the new software. 201. 3. Insisting that any manuals for his software be complete and in plain 202. 4. Bargaining if possible for a software warranty. Then, if you discover 203. 5. Possibly requiring the consultant to give you a discount on 204. 6. Negotiating for full or part ownership of the software he may develop 205. 7. Forbidding the consultant from selling the new software to your 206. 8. Making the consultant pledge that he won’t violate any trade-secret 207. 9. Hammering out a confidentiality agreement, if necessary, to protect 208. 10. Making the consultant agree in writing that he is working as your 209. 11. Trying to write into the contract your right to a full explanation 210. 12. Remembering that there’s only so much protection the law can give, 211. 13. Choosing the right lawyer, if you can afford one, for the contract. 212. 1. Is the convenience worth the extra several hundred dollars you’ll be 213. 3. How do the windows look alongside each other? Do they =overlap=, just 214. 4. How about =data transfer=? If you move information from one 215. 5. What kind of graphics—=bit mapped= or =character based=? The bit 216. 6. Will the window program work with ordinary software or just products 217. 7. Will the windows at least slightly slow down some programs? A word 218. 8. Is the program picky about the computers it’ll work with? A window 219. 9. Does the program require a mouse—the gadget you roll on your disk to 220. 1. Communicate teletype-fashion with the other person. You can keep 221. 2. Call up electronic bulletin-board systems (BBSs) or plug into The 222. 3. Get copies of other programs that altruistic computer buffs have 223. 1. Start out with the other person’s modem set on ORIGINATE and yours on 224. 3. Hit your carriage-return key. 225. 6. Assuming you’re using a manual modem, flick the switch to “data.” 226. 3. Hit your return. 227. 1. From MODEM7’s main menu, you select =T= and again hit the return a 228. 2. Find out if the other person can read words you type. (Don’t worry if 229. 3. Tell him (or her) to set up his computer so that, on paper or on a 230. 4. Once the other person is ready—while you’re still in the =T= mode—hit 231. 5. Now you type =B:[name of file]=. Here and elsewhere don’t type the 232. 6. Next hit your return. The disk should start spinning, and both you 233. 2. Again, select your trusty =T= from the main menu. But don’t hit your 234. 4. Type =B:[the name of the file you’re creating on the data disk to 235. 6. Then hit the letter =Y= with your finger on the control key 236. 8. Then, to preserve the file, “writing” to your disk, you must type out 237. 2. From MODEM7’s main menu, type =S B:[name of the data disk file you 238. 3. Hit the return. 239. 3. Hit your return. 240. 2. Type the word TYPE, then a space, then the name of the file—preceded 241. 3. Then hit your return. 242. 4. Hit your return. 243. 3. Tap =Control-B=. 244. 4. Type the right number (300 for 300 baud, 1200 for 1,200; do not use 245. 5. Hit your return.

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