Discusses outsourcing storage and computing, encrypted data computing, and searchable symmetric encryption for data security in cloud environments. It touches on topics like data confidentiality, user revocation, and performance-oriented implementations.

2 views • 30 slides

This lecture delves into the principles and applications of symmetry in magnetism, covering topics such as the symmetry of response tensors, transformations of tensors, time-reversal symmetry, and beyond point groups. It explores the symmetry of local effects, equivalent magnetic configurations, exp

2 views • 14 slides

Solid state chemistry involves studying the differences between amorphous and crystalline solids, exploring their unique properties such as melting points, isotropic/anisotropic characteristics, and examples of each type of solid. Additionally, the classification of crystals into different crystal s

5 views • 62 slides

Crystal structures in materials science involve the arrangement of atoms in solids, with examples of crystalline and amorphous solids like metals and glass. Explore concepts like energy packing, definitions of crystalline materials, unit cells, BCC and FCC lattices, HCP structures, and Miller Indice

10 views • 12 slides

Metallic bonding involves the attraction of positive metal ions to delocalized electrons, forming giant metallic lattices. In this structure, positive metal ions occupy fixed positions while electrons move freely throughout. This bonding is different from covalent bonding as it is delocalized, leadi

1 views • 19 slides

Explore the concept of reciprocal lattices in crystal structures, including non-rectangular lattices, Fourier space in 2D, Wigner-Seitz cells, Brillouin Zones, and the relationship between BCC and FCC structures. Learn about primitive lattice vectors, construction of the Brillouin Zone, and the sign

0 views • 49 slides

Conducting research on career pathing in the new tyre industry to develop a catalogue of production jobs, map jobs to OFO, establish career lattices, and create tools for career planning. Focus on enhancing access to career information, promoting common understanding, and improving HR practices.

0 views • 22 slides

Learn essential concepts such as drawing Wigner-Seitz cells, identifying lattice directions, using direction/plane notations, locating directions/planes, and calculating distances in cubic or orthorhombic lattices. Explore various ways to define a unit cell within a lattice, including the Wigner-Sei

0 views • 25 slides

Exploring the significance of crystal lattice planes in determining parameters, diffraction methods, and orthogonal systems. Discover how to identify planes and calculate distances in various lattices using Miller indices. Visual aids provide clarity on hexagonal structures and symmetry in crystallo

0 views • 22 slides

Explore the integration of word confusion networks into large language models to improve spoken language understanding by addressing ASR errors and transcription ambiguities. The research focuses on leveraging ASR lattices for richer input representations and investigating the performance variations

0 views • 30 slides

Lattice research is vital for determining the characteristics of accelerators, colliders, and storage rings. High beam brightness is crucial for achieving goals like luminosity and beam loss reduction. The main barriers to higher beam brightness include instabilities and particle loss. General requi

0 views • 13 slides

Explore the intricacies of lattice problems such as Learning With Errors (LWE) and Short Integer Solution (SIS), and their relation to the Knapsack Problem. Delve into the hardness of these problems and their applications in building secure cryptographic schemes based on polynomial rings and lattice

0 views • 44 slides

Spookily Homomorphic Encryption, as presented by Daniel Wichs based on joint works with other researchers, explores concepts like Fully Homomorphic Encryption (FHE) and Multi-Key FHE. It delves into the why, what, and how of FHE, with a focus on distributed decryption and achieving non-local relatio

0 views • 37 slides

Delve into the study of symmetric chains, Hamilton cycles, and Boolean lattices in graph theory. Discover the relationships between chain decompositions, Boolean lattices, and edge-disjoint symmetric chain decompositions, exploring construction methods and properties such as orthogonality. Uncover t

0 views • 15 slides