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diff --git a/doc/pddp/help-timer.pd b/doc/pddp/help-timer.pd
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-#N canvas 11 8 937 643 10;

-#X msg 43 113 bang;

-#X msg 18 91 bang;

-#X obj 18 135 timer;

-#X obj 25 15 timer;

-#X floatatom 18 157 0 0 0;

-#X text 90 159 Output is in milliseconds;

-#X text 65 16 -- measure logical time;

-#X text 53 91 Click here to start or reset;

-#X text 13 44 The [timer] object measures elapsed logical time. Logical

-time moves forward as if all computation were instantaneous and as

-if all [delay] and [metro] objects were exact.;

-#X text 11 185 [timer] works like essentially like a stop-watch. Once

-it starts \, you can continue to "poll" the [timer] to view the elapsed

-time.;

-#X text 81 114 Click here to get elapsed logical time. Click again...and

-again...to see periodic measurements from the start or reset time.

-;

-#X text 10 282 As stated above \, [timer] measures "logical" time.

-This value may be slightly different that CPU time or "real" time.

-PD offers two objects which measure CPU time and "real" time. See the

-reference documents for those objects for more information.;

-#X obj 52 545 time_measurements;

-#X obj 52 441 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1

--1;

-#X floatatom 17 572 0 0 0;

-#X floatatom 108 585 0 0 0;

-#X floatatom 175 573 0 0 0;

-#X text 11 358 In the example below \, I've created an abstraction

-which will force each of PD's stop-watches \, [timer] [cputime] and

-[realtime] to measure various processes and report the elapsed time.

-Click on each [bng] to begin the process and wait for the results.

-Notice the discrepancies in the results.;

-#X text 15 587 Logical Time;

-#X text 173 587 Real Time;

-#X text 107 601 CPU Time;

-#X obj 67 477 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1

--1;

-#X text 72 435 1 Measures elapsed time between two "bangs" from a [trigger]

-object.;

-#X text 87 469 2 Measures the amount of time PD requires to turn on

-DSP and start an oscillator.;

-#X obj 445 484 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1

--1;

-#X obj 445 17 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1

--1;

-#X text 472 36 WHY THE DISCREPANCIES BETWEEN CLOCKS?;

-#X text 475 59 In a fantasy world \, computers could exist somehow

-beyond the restrictions of time and digital computation could be performed

-in ZERO time. However \, that is not the case. Instead \, every process

-within PD and within your operating system requires at least a few

-nanoseconds of your CPU's time.;

-#X obj 111 509 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1

--1;

-#X text 476 144 The [timer] object is like a clock that is not constrained

-to the regular laws of physics and the universal space-time continuum.

-It reports "time" measurements as only PD can see them!;

-#X text 477 204 The [cputime] object is like a clock that measures

-how much time your CPU actually required to carry out your request.

-Keep in mind however that your CPU is busy doing many things simoultaneously

-\, so even though a process might take 5 minutes to complete \, your

-CPU does not pay full attention to that process for the entire 5 minutes.

-Instead \, it simply begins the process \, then refers back to that

-process from time to time until the it is complete. In other cases

-\, your CPU might require a full 5 minutes while PD might report that

-merely a few milliseconds have passed. This type of discrepancy depends

-heavily on your computer's hardware and the type of processing it is

-performing.;

-#X text 478 368 The [realtime] object is as much like your own wrist

-watch as PD can possibly manage. It measures time according to your

-operating system's internal clock.;

-#N canvas 0 0 454 304 related_objects_from_other_libraries 0;

-#X text 27 63 These objects are offered in PD only if you have downloaded

-and properly installed the appropriate library. These objects may or

-may not exist in a single library.;

-#X text 26 112 The best places to find information about PD's libraries

-is:;

-#X text 23 134 www.puredata.org and click on "Downloads" then "Software"

-;

-#X text 25 149 or;

-#X text 25 164 iem.kug.ac.at/pdb/;

-#X obj 44 24 t3_timer;

-#X text 469 589 This document was updated for PD version 0.35 test

-26 by Dave Sabine as part of a project called pddp proposed by Krzysztof

-Czaja to build comprehensive documentation for PD.;

-#X restore 505 476 pd related_objects_from_other_libraries;

-#X text 309 580 This document was updated for PD version 0.35 test

-28 by Dave Sabine as part of a project called pddp proposed by Krzysztof

-Czaja to build comprehensive documentation for PD.;

-#X text 11 232 The odd aspect about comparing [timer] to a stop-watch

-is that a stop-watch can be stopped! [timer] can only be started or

-reset. It cannot be stopped.;

-#X obj 625 445 metro;

-#X text 504 422 RELATED OBJECTS;

-#X obj 504 446 cputime;

-#X obj 562 445 realtime;

-#X text 132 501 3 Measures the amount of time PD requires count to

-three...please wait for approximately 3 seconds.;

-#X connect 0 0 2 1;

-#X connect 1 0 2 0;

-#X connect 2 0 4 0;

-#X connect 12 0 14 0;

-#X connect 12 1 15 0;

-#X connect 12 2 16 0;

-#X connect 13 0 12 0;

-#X connect 21 0 12 1;

-#X connect 25 0 24 0;

-#X connect 28 0 12 2;