QT_SECC is a worthy way to improve Web Security & provide Entropy for a device such as a Logitech G-Unit & JS cache performance

BT-2.4G QT_SECC

Able to be used for Motion, Haptic, Video, Texture, Audio wavelet creation & use:

BT-2.4G Quartz Time Crystal Tick Simple Elliptic Curve to Support FIPS 128Bit on Unifier USB,

Modulation to 16Bit& 32Bit & 64Bit & 128Bit allow for different types of SiMD & AVX
Allow for Android & Linux & Windows; ARM & X86 & GPU Processors

Presented with a single tick _/-_/ Complex modulating Elliptic curves of 8Bit & 16Bit & 32Bit & 64Bit & 128Bit lengths,

16Bit to 64Bit & 128Bit output curves; Through temporary ECC certificate..; Additionally ChaCha_Poly & AES Ciphers..

Rupert S

Elliptic Example2 : TVarEllipsoDelipsoRS

var RealCurves = {

/* definition
var Diameter D = 1
var Time default = 2
var Forward motion = T seconds
var Backward motion = T Hours
*/

R = 1/360

E = /dev/rnd

Tv1 = D * (seconds - Microseconds)
TV2 = R * micro seconds

var D = T Hours - T Seconds
var R = T Seconds - T Hours

var Ellipse1 = (Tv1 * D) * (R / Second)
var Ellipse2 = (Tv2 * D) * (R / (Second - microseconds))

Curve1 = modulus Ellipse1 * Ellipse2 / Time minutes
Curve2 = modulus Ellipse1 * Ellipse2 / Time seconds
Curve3 = mean deviation {Curve1, Curve2}
Curve4 = mean deviation {Curve2, Curve1}

entropy fetch = E

Query = RealCurves1 { E + Curve1 + curve2 }
Query = RealCurves2 { E + Curve2 + curve1 }
Query = RealCurves3 { E + Curve3 + curv4 }
Query = RealCurves4 { E + Curve4 + curve3 }

GroupCurve1 {RealCurves1, RealCurves3, RealCurves2, Real_Curves4}

}};

/* Fetch in order */

fetch = (Group_Curve1)};

}

Rupert S