SA = Signal Adjustments and System's Architectures, MI = Mode's Inspiration and Modeling's Intelligence

7/27/2019 SA = Signal Adjustments and System's Architectures, MI = Mode's Inspiration and Modeling's Intelligence

1/15

SA = signal adjustments and system's architectures, MI =

mode's inspiration and modeling's intelligence := {SA && MI}

inside mathematical intentional secrets across modulation's

symbolization (engendering job scheduling) and

manufacturing's synchronization (timing simulation) }

Said Mchaalia && Elizabeth f. Schneider

(cleaner copy October 13th, 2013)

In fact, the modulation's symbolization, which has to engender and envelop

any job scheduling within a continuous mathematical inspiration, which has

to give an major intentional idea about the learning side of mode's

intelligence across system's architectures and signal adjustment processing.

Hence, the main real operating task and thread across inventing new

approaches and algorithms to engender any robust control and to fix and

function form around transmission's transportation dynamics and

mechanism.


2/15

Figure 1: main real review of all possible probable dynamicsacross Liable

logical Core's dynamic encoding design = surround symbolic{(dark, clear), (m= move, i = invest), (do, rue), (speed up, adjust)}dynamics and liable logics'slanguage of genetic mimetic approachengendering symbolic synchronized{(frequent = mathematical mappingintentional of pair (+tg(v), -tg(v) suchthat v in ]2.k.pi, 5.k.pi/2[ and ]5.k.pi/2,(2.k +1).pi[, at (to synchronize timingsimulation processing)), (digit =increment(initial = 0) to reach final= last = 9,event = (slice of time n suchthat t=n.T), (custom = current edge flow,consumer = node operation),(scalingstairs, step's slice'sscheduling)} design.


3/15

Hence, figure 1 illustrates main real review of all possible probable

dynamicsacross Liable logical Core's dynamic encoding design = surround

symbolic{(dark, clear), (m = move, i = invest), (do, rue), (speed up,

adjust)}dynamics and liable logics's language of genetic mimeticapproachengendering symbolic synchronized {(frequent = mathematical

mappingintentional of pair (+tg(v), -tg(v) such that v in ]2.k.pi, 5.k.pi/2[ and ]

5.k.pi/2,(2.k +1).pi[, at (to synchronize timing simulation processing)), (digit

=increment(initial = 0) to reach final= last = 9, event = (slice of time n

suchthat t=n.T), (custom = current edge flow, consumer = node operation),

(scalingstairs, step's slice's scheduling)} design.

Furthermore, the main real operating idea across this work is to put out the

growing mode's inspiration and modeling's intelligence across the "black

square" intentional secret inside enhancement of knowledge cultures and

processing within discrete event simulation dynamics and mechanism: thus,Said Mchaalia, Myelin Sylvester, Susanne Weber, Elizabeth Schneider, Britney

Spears, Jana Bechstein, and many other are working in deep dynamic design

to understand the major most significant thread task across discrete event

simulation, which is envisage inside symbolic set {(slice of time integer n

such that t = n.T, event's value = function form involving within any

mathematical intentional surround architecture).

I/ mathematical intentional secret across modulation's inspiration

and modeling's intelligence


4/15

Figure 2: main real operating ideas to enhance amplitude and magnetude

valuable variable extensible desirable aim objects.

In fact, figure 2 depicts the main huge hard hierarchy homes of interests inoperating ideas to enhance amplitude and magnetude valuable variableextensible desirable aim objects.


5/15

In fact, based on figure 1, the main real processing is to invest in inventing a

huge hard hierarchy homes across robust modeling's intelligence within the

genetic and mimetic dynamic design to ensure desirable aim objects for any

human dynamics and mechanism. Hence, the human persons, are discrete

event simulation dynamics, which has to be model as any other thread task

across (custom, consumer) graphics processing's modeling's intelligence.Therefore, the secrets across (custom, consumer) graphics processing's

modeling's intelligence, depicts the main real operating principles such that :

1. amplitude's amplification within easy simple mathematical intentional

modeling = mapping pair ((-1+ ratio of 1 to sqr[sin()] = "1/sqr[sin()]") XOR

sqr[tg()] ) OR ((-1+ ratio of 1 to sqr[cos()] = "1/sqr[cos()]")XOR ratio of 1 to

sqr[tg()] = "1/sqr[tg()"]

Thus, the mathematical amount quantity (-1+ ratio of 1 to sqr[sin()] =

"1/sqr[sin()]") XOR sqr([tg()] plays the main real rule within any mode's

inspiration and modeling's intelligence to ensure first of all possible probable

fuzzy involvement inside the found mathematical inspiration, second of the

amplification of the corresponding magnitude to access the transmission's

transportation dynamics across (send = emit, receive = become) more and

more streams of digital sequential data crossing any type of

telecommunication; spacial, terrestrial, sub-ways, underworlds, open-air

(mountains, higher lands, etc..).

Hence, the mathematical amount quantity (-1+ ratio of 1 to sqr[sin()] =

"1/sqr[sin()]") XOR sqr([tg()] could then introduce the main real operation of

mapping two keywords as all possible probable object orient type of

programming tasks such as typedef map Process_Map; typedef

map Storage_Map, map::iterator il =

Process_Map.begin(), map::iterator ig =

Storage_Map.begin(), etc investigation within deep mode's inspiration and

modeling's intelligence enhancing modulation intensity, mechanism ideas,

which should be equal to mapping pair of symbolic synchronized {(dark,clear), (m = move, i = invest), (do = "dark as adjective = to tend to +infinite

value for example (-1+ ratio of 1 to sqr[sin()] = "1/sqr[sin()]") XOR sqr([tg()]

OR ((-1+ ratio of 1 to sqr[cos()] = "1/sqr[cos()]")XOR ratio of 1 to sqr[tg()] =

"1/sqr[tg()"]), rue = signal adjustment dynamics and mechanism = error's

optimization processing = consider valuable variable extensible available

processing across error between desirable and main real operating dynamics


6/15

, (speed up, adjust)} dynamic design.

Thus, the symbolic synchronized {(dark, clear), (m = move, i = invest), (do,

rue), (speed up, adjust)} dynamic design consist to concern the error's

optimization as the desirable of any robust control and the optimization of

probabilistic stochastic statistical chaotic proceeding across human fixing

function forms around desirable wishes and aim objects.

In fact, the modulation's symbolization, which has to engender and envelop

any job scheduling within a continuous mathematical inspiration, which has

to give an major intentional idea about the learning side of mode's

intelligence across system's architectures and signal adjustment processing.Hence, the main real operating task and thread across inventing new

approaches and algorithms to engender any robust control and to fix and

function form around transmission's transportation dynamics and

mechanism.

Figure 1: main real review of all possible probable dynamics across Liable

logical Core's dynamic encoding design = surround symbolic{(dark, clear), (m

= move, i = invest), (do, rue), (speed up, adjust)}dynamics and liable logics's

language of genetic mimetic approach engendering symbolic synchronized{(frequent = mathematical mapping intentional of pair (+tg(v), -tg(v) such

that v in ]2.k.pi, 5.k.pi/2[ and ]5.k.pi/2,(2.k +1).pi[, at (to synchronize timing

simulation processing)), (digit =increment(initial = 0) to reach final= last = 9,

event = (slice of time n such that t=n.T), (custom = current edge flow,

consumer = node operation),(scalingstairs, step's slice's

scheduling)} design.

Hence, figure 1 illustrates main real review of all possible probable dynamics

across Liable logical Core's dynamic encoding design = surroundsymbolic{(dark, clear), (m = move, i = invest), (do, rue), (speed up,

adjust)}dynamics and liable logics's language of genetic mimetic approach

engendering symbolic synchronized {(frequent = mathematical mapping

intentional of pair (+tg(v), -tg(v) such that v in ]2.k.pi, 5.k.pi/2[ and ]5.k.pi/2,

(2.k +1).pi[, at (to synchronize timing simulation processing)), (digit

=increment(initial = 0) to reach final= last = 9, event = (slice of time n such


7/15

that t=n.T), (custom = current edge flow, consumer = node operation),




square" intentional secret inside enhancement of knowledge cultures andprocessing within discrete event simulation dynamics and mechanism: thus,

Said Mchaalia, Myelin Sylvester, Susanne Weber, Elizabeth Schneider, Britney






I/ mathematical intentional secret across modulation's inspiration andmodeling's intelligence:






across (custom, consumer) graphics processing's modeling's intelligence.

Therefore, the secrets across (custom, consumer) graphics processing'smodeling's intelligence, depicts the main real operating principles such that :





Thus, the mathematical amount quantity (-1+ ratio of 1 to sqr[sin()] ="1/sqr[sin()]") XOR sqr([tg()] plays the main real rule within any mode's







8/15











which should be equal to mapping pair of symbolic synchronized {(dark,

clear), (m = move, i = invest), (do = "dark as adjective = to tend to +infinite


OR ((-1+ ratio of 1 to sqr[cos()] = "1/sqr[cos()]")XOR ratio of 1 to sqr[tg()] ="1/sqr[tg()"]), rue = signal adjustment dynamics and mechanism = error's

optimization processing = consider valuable variable extensible available

processing across error between desirable and main real operating dynamics





probabilistic stochastic statistical chaotic proceeding across human fixingfunction forms around desirable wishes and aim objects.

II/ involve intentional mathematical arrangement to surround mode's

inspiration and modeling's intelligence across any signal adjustment and

system's architecture:

In fact, the deep investigation of Intel processors, require to understand in

deep, system's architecture = processor's architecture = what is a processor?

= to enhance programming design = engender and envelop any possible

probable job scheduling type = to flow within the what is insert this is close to

wish to surround, to do to rue across any possible intentional mathematical

modeling's intelligence = count a day away to be a discrete event's

specialist = compute across any probable intentional function form to invent

a dynamics and mechanism across get up and bring into a battleground


9/15

growing mechanism of showing numbers as computing processing: 0,

0.00002, 0.008, 0.5, 1, 1.6, 1.60009, 1.9, ......, 10000.

Furthermore, the computing across the mathematical intentional to ensure

real main operating dynamics across the modulation's inspiration =

amplification of amplitude and intentional value of magnitude to reach the

highest variation level when to be sent to any destination = mapping pair of

{((-1+ ratio of 1 to sqr[sin()] = "1/sqr[sin()]") XOR sqr[tg()] ) OR ((-1+ ratio of

1 to sqr[cos()] = "1/sqr[cos()]")XOR ratio of 1 to sqr[tg()] = "1/sqr[tg()"] }

symbolic dynamic design to enhance the involving of "Corner's float dynamic

encoding design". What is this?

Thus, the Corner's float dynamic encoding design concern the flow by scaling

within step's slice scheduling: lowest voltage level to be "TRUE = 1" is 1.25

volts, but what if insert a flow of step's slice scheduling to add each time

0.005 volts or 0.00003 volts to ensure and build in any possible corner's float

dynamic encoding design: leaf like take the remote control: click "A" => 1.25

volts, then click "B" => to assign 1.2500003 volts during transmission's

transportation mechanism, after click "*" => to assign 1.250036 volts during

transmission's transportation mechanism, then click ")" => to assign 1.25078

volts during transmission's transportation mechanism, ....

, finally click "z" => to assign 5.00003 volts during transmission's

transportation mechanism. Thus, this the basic built in dynamics of thecorner's float dynamic encoding design, which could be easy engendering

and enveloping within:

i. sqr[sin()] = ratio of ((*ig).second).size()) to [sum( ((*ig).second).size()) + 1

(= fptr.eof()) = ((*ig).second).size()) / [sum( ((*ig).second).size()) + 1 (=

fptr.eof()). .

ii. sqr[cos()] = ratio of ((*ig).second).size()) to [sum( ((*ig).second).size()) + 1(= fptr.eof()) =((*ig).second).size()) / [sum( ((*ig).second).size()) + 1 (=

fptr.eof()).

iii. Claude's Shannon's p.Log(1/p) = ratio of ((*ig).second).size()) to

[sum( ((*ig).second).size()) + 1 (= fptr.eof()) = ((*ig).second).size()) /


10/15

[sum( ((*ig).second).size()) + 1 (= fptr.eof()).

iv. ((-1+ ratio of 1 to sqr[sin()] = "1/sqr[sin()]") XOR sqr[tg()] ) OR ((-1+ ratio

of 1 to sqr[cos()] = "1/sqr[cos()]")XOR ratio of 1 to sqr[tg()] = "1/sqr[tg()"] =

ratio of ((*ig).second).size()) to [sum( ((*ig).second).size()) + 1 (= fptr.eof()) =

((*ig).second).size()) / [sum( ((*ig).second).size()) + 1 (= fptr.eof()).

Therefore, the logics "XOR" is a depicting of the arithmetic operation "+".

v. search a function form f() such that 0


11/15

logical Core's dynamic encoding design = surround symbolic{(dark, clear), (m

= move, i = invest), (do, rue), (speed up, adjust)}dynamics and liable logics's

language of genetic mimetic approach engendering symbolic synchronized

{(frequent = mathematical mapping intentional of pair (+tg(v), -tg(v) such

that v in ]2.k.pi, 5.k.pi/2[ and ]5.k.pi/2,(2.k +1).pi[, at (to synchronize timing

simulation processing)), (digit =increment(initial = 0) to reach final= last = 9,event = (slice of time n such that t=n.T), (custom = current edge flow,

consumer = node operation),(scalingstairs, step's slice's

scheduling)} design.

Hence, figure 1 illustrates main real review of all possible probable dynamics

across Liable logical Core's dynamic encoding design = surround

symbolic{(dark, clear), (m = move, i = invest), (do, rue), (speed up,

adjust)}dynamics and liable logics's language of genetic mimetic approach

engendering symbolic synchronized {(frequent = mathematical mappingintentional of pair (+tg(v), -tg(v) such that v in ]2.k.pi, 5.k.pi/2[ and ]5.k.pi/2,

(2.k +1).pi[, at (to synchronize timing simulation processing)), (digit

=increment(initial = 0) to reach final= last = 9, event = (slice of time n such

that t=n.T), (custom = current edge flow, consumer = node operation),




square" intentional secret inside enhancement of knowledge cultures and

processing within discrete event simulation dynamics and mechanism: thus,

Said Mchaalia, Myelin Sylvester, Susanne Weber, Elizabeth Schneider, Britney






I/ mathematical intentional secret across modulation's inspiration and

modeling's intelligence:







12/15

across (custom, consumer) graphics processing's modeling's intelligence.

Therefore, the secrets across (custom, consumer) graphics processing's

modeling's intelligence, depicts the main real operating principles such that :





Thus, the mathematical amount quantity (-1+ ratio of 1 to sqr[sin()] =

"1/sqr[sin()]") XOR sqr([tg()] plays the main real rule within any mode's
















which should be equal to mapping pair of symbolic synchronized {(dark,

clear), (m = move, i = invest), (do = "dark as adjective = to tend to +infinite


OR ((-1+ ratio of 1 to sqr[cos()] = "1/sqr[cos()]")XOR ratio of 1 to sqr[tg()] =

"1/sqr[tg()"]), rue = signal adjustment dynamics and mechanism = error's

optimization processing = consider valuable variable extensible availableprocessing across error between desirable and main real operating dynamics





13/15


probabilistic stochastic statistical chaotic proceeding across human fixing

function forms around desirable wishes and aim objects.

II/ involve intentional mathematical arrangement to surround mode's

inspiration and modeling's intelligence across any signal adjustment and

system's architecture:

In fact, the deep investigation of Intel processors, require to understand in

deep, system's architecture = processor's architecture = what is a processor?

= to enhance programming design = engender and envelop any possible

probable job scheduling type = to flow within the what is insert this is close to

wish to surround, to do to rue across any possible intentional mathematical

modeling's intelligence = count a day away to be a discrete event's

specialist = compute across any probable intentional function form to invent

a dynamics and mechanism across get up and bring into a battleground

growing mechanism of showing numbers as computing processing: 0,

0.00002, 0.008, 0.5, 1, 1.6, 1.60009, 1.9, ......, 10000.

Furthermore, the computing across the mathematical intentional to ensure

real main operating dynamics across the modulation's inspiration =

amplification of amplitude and intentional value of magnitude to reach the

highest variation level when to be sent to any destination = mapping pair of

{((-1+ ratio of 1 to sqr[sin()] = "1/sqr[sin()]") XOR sqr[tg()] ) OR ((-1+ ratio of

1 to sqr[cos()] = "1/sqr[cos()]")XOR ratio of 1 to sqr[tg()] = "1/sqr[tg()"] }

symbolic dynamic design to enhance the involving of "Corner's float dynamic

encoding design". What is this?

Thus, the Corner's float dynamic encoding design concern the flow by scaling

within step's slice scheduling: lowest voltage level to be "TRUE = 1" is 1.25

volts, but what if insert a flow of step's slice scheduling to add each time

0.005 volts or 0.00003 volts to ensure and build in any possible corner's float

dynamic encoding design: leaf like take the remote control: click "A" => 1.25

volts, then click "B" => to assign 1.2500003 volts during transmission's

transportation mechanism, after click "*" => to assign 1.250036 volts during

transmission's transportation mechanism, then click ")" => to assign 1.25078

volts during transmission's transportation mechanism, ....


14/15

, finally click "z" => to assign 5.00003 volts during transmission's

transportation mechanism. Thus, this the basic built in dynamics of the

corner's float dynamic encoding design, which could be easy engendering

and enveloping within:

i. sqr[sin()] = ratio of ((*ig).second).size()) to [sum( ((*ig).second).size()) + 1

(= fptr.eof()) = ((*ig).second).size()) / [sum( ((*ig).second).size()) + 1 (=

fptr.eof()). .

ii. sqr[cos()] = ratio of ((*ig).second).size()) to [sum( ((*ig).second).size()) + 1

(= fptr.eof()) =((*ig).second).size()) / [sum( ((*ig).second).size()) + 1 (=

fptr.eof()).

iii. Claude's Shannon's p.Log(1/p) = ratio of ((*ig).second).size()) to

[sum( ((*ig).second).size()) + 1 (= fptr.eof()) = ((*ig).second).size()) /

[sum( ((*ig).second).size()) + 1 (= fptr.eof()).

iv. ((-1+ ratio of 1 to sqr[sin()] = "1/sqr[sin()]") XOR sqr[tg()] ) OR ((-1+ ratio

of 1 to sqr[cos()] = "1/sqr[cos()]")XOR ratio of 1 to sqr[tg()] = "1/sqr[tg()"] =

ratio of ((*ig).second).size()) to [sum( ((*ig).second).size()) + 1 (= fptr.eof()) =

((*ig).second).size()) / [sum( ((*ig).second).size()) + 1 (= fptr.eof()).Therefore, the logics "XOR" is a depicting of the arithmetic operation "+".

v. search a function form f() such that 0


15/15

move, ( dark = do, clear = (-1+ ratio of 1 to sqr[sin()] =-1+ "1/sqr[sin()]"))

OR sqr[tg()] OR ratio of 1 to sqr[tg()] = 1/sqr[tg()] OR (-1+ ratio of 1 to

sqr[cos()] = -1+ "1/sqr[cos()]")), speed up = there is no obstacle). Next list is

the invest in list = (i = invest, ( dark = do, clear = (-1+ ratio of 1 to sqr[sin()]

=-1+ "1/sqr[sin()]")) OR sqr[tg()] OR ratio of 1 to sqr[tg()] = 1/sqr[tg()] OR (-

1+ ratio of 1 to sqr[cos()] = -1+ "1/sqr[cos()]")), invest = make mobile pathcleaner from any obstacle).

In fact, within the corner's float dynamic encoding design, the

Documents

SA = Signal Adjustments and System's Architectures, MI = Mode's Inspiration and Modeling's Intelligence