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NASA’s DART spacecraft modified an asteroid’s orbit across the solar

Dr. Mike
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NASA’s DART spacecraft modified an asteroid’s orbit across the solar


A spacecraft slowed the orbit of a pair of asteroids across the solar by greater than 10 micrometers per second — the primary time human exercise has altered the orbit of a celestial object, researchers report March 6 in Science Advances. The experiment might have implications for shielding Earth from future asteroid strikes.

NASA’s Double Asteroid Redirection Check, or DART, deliberately crashed a spacecraft into the small asteroid Dimorphos in 2022. The purpose was to vary Dimorphos’ orbit round its bigger sibling, Didymos. Inside a month, researchers confirmed that the influence shortened Dimorphos’ 12-hour orbit by 32 minutes.

Most of that change got here from the influence itself. A few of it got here from flying influence particles, which gave Dimorphos just a little kick in the other way of its movement.

A few of the rocks knocked off of Dimorphos fled the neighborhood utterly, escaping the gravitational affect of the Dimorphos–Didymos pair, says planetary protection researcher Rahil Makadia of the College of Illinois Urbana–Champaign. These rocky runaways took some momentum away from the duo and altered their joint movement across the solar.

To determine how a lot that movement was affected, astronomers watched the asteroids move in entrance of distant stars, dimming a few of the stars’ mild like a tiny eclipse. These blinks, referred to as stellar occultations, will be seen from anyplace on Earth and are predictable prematurely.

“Oftentimes it’s beginner astronomers going out in the midst of nowhere to trace Didymos primarily based on predictions,” Makadia says. “There was an observer who drove two days every approach into the Australian outback to get these measurements.”

Makadia and colleagues gathered 22 such measurements taken from October 2022 to March 2025. Calculating how far off occultation timings had been from predictions revealed that the asteroids’ orbit across the solar was about 150 milliseconds slower than earlier than the DART influence.

The outcome could possibly be confirmed later this yr, when the European Area Company’s Hera spacecraft arrives at Didymos and Dimorphos for follow-up observations.

Didymos and Dimorphos usually are not a menace to Earth, Makadia says, and weren’t earlier than DART. However figuring out how a deliberate influence adjustments one asteroid’s orbit may help make protection plans in opposition to one other, “in case we have to do a kinetic influence for actual.”


Programming an estimation command in Stata: World macros versus native macros

Dr. Mike
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Programming an estimation command in Stata: World macros versus native macros


I talk about a pair of examples that illustrate the variations between world macros and native macros. You possibly can view this put up as a technical appendix to the earlier put up within the #StataProgramming sequence, which launched world macros and native macros.

In each command I write, I take advantage of native macros to retailer stuff in a workspace that won’t alter a consumer’s knowledge and to make my code simpler to learn. A great understanding of the variations between world macros and native macros helps me to put in writing higher code. The important variations between world macros and native macros will be summarized in two factors.

  1. There is just one world macro with a selected identify in Stata, and its contents will be accessed or modified by a Stata command executed at any Stata stage.
  2. In distinction, every Stata stage can have an area macro of a selected identify, and every one’s contents can’t be accessed or modified by instructions executed at different Stata ranges.

If you’re already snug with 1 and a pair of, skip the rest of this put up.

That is the third put up within the sequence Programming an estimation command in Stata. I like to recommend that you simply begin originally. See Programming an estimation command in Stata: A map to posted entries for a map to all of the posts on this sequence.

World macros are world

The do-files globala.do and globalb.do in code blocks globala and globalb illustrate what it means to be world.

Code block 1: globala.do


*-------------------------------Start globala.do ---------------
*! globala.do
*  On this do-file we outline the worldwide macro vlist, however we
*  don't use it
world vlist var1 var2 var3

do globalb
*-------------------------------Finish globala.do ---------------

Code block 2: globalb.do


*-------------------------------Start globalb.do ---------------
*! globalb.do
*  On this do-file, we use the worldwide macro vlist, outlined in globala.do

show "The worldwide macro vlist incorporates $vlist"
*-------------------------------Finish globalb.do ---------------

The best method to see what this code does is to execute it; the output is in instance 1.

Instance 1: Output from do globala


. do globala

. *-------------------------------Start globala.do ---------------
. *! globala.do
. *  On this do-file we outline the worldwide macro vlist, however we
. *  don't use it
. world vlist var1 var2 var3

. 
. do globalb

. *-------------------------------Start globalb.do ---------------
. *! globalb.do
. *  On this do-file, we use the worldwide macro vlist, outlined in globala.do
. 
. show "The worldwide macro vlist incorporates $vlist"
The worldwide macro vlist incorporates var1 var2 var3

. *-------------------------------Finish globalb.do ---------------
. 
finish of do-file

. *-------------------------------Finish globala.do ---------------
. 
finish of do-file

Line 5 of globalb.do can entry the contents of vlist created on line 5 of globala.do as a result of vlist is a world macro.

Determine 1 makes this similar level graphically: the worldwide macro vlist is in world reminiscence, and a command executed wherever can entry or change the contents of vlist.

Determine 1: A world macro in world reminiscence

Native macros are native

The do-files locala.do and localb.do in code blocks 3 and 4 illustrate what it means to be native.

Code block 3: locala.do


*-------------------------------Start locala.do ---------------
*! locala.do
native mylist "a b c"
show "mylist incorporates `mylist'"

do localb

show "mylist incorporates `mylist'"
*-------------------------------Finish locala.do ---------------

Code block 4: localb.do


*-------------------------------Start localb.do ---------------
*! localb.do
native mylist "x y z"
show "mylist incorporates `mylist'"
*-------------------------------Finish localb.do ---------------

The best method to see what this code does is to execute it; the output is in instance 2.

Instance 2: Output from do locala


. do locala

. *-------------------------------Start locala.do ---------------
. *! locala.do
. native mylist "a b c"

. show "mylist incorporates `mylist'"
mylist incorporates a b c

. 
. do localb

. *-------------------------------Start localb.do ---------------
. *! localb.do
. native mylist "x y z"

. show "mylist incorporates `mylist'"
mylist incorporates x y z

. *-------------------------------Finish localb.do ---------------
. 
finish of do-file

. 
. show "mylist incorporates `mylist'"
mylist incorporates a b c

. *-------------------------------Finish locala.do ---------------
. 
finish of do-file

The code in blocks 3 and 4 and the output in instance 2 illustrate {that a} command executed on the stage of localb.do can’t change the native macro mylist that’s native to locala.do. Line 8 of locala.do shows the contents of the mylist native to locala.do. The contents are nonetheless a b c after localb.do finishes as a result of the native macro mylist created on line 3 of locala.do is native to locala.do and it’s unaffected by the mylist created on line 3 of localb.do.

Determine 2 makes this level graphically. The contents of the native macro mylist that’s native to locala.do will be accessed and altered by instructions run in locala.do, however not by instructions run in localb.do. Analogously, the contents of the native macro mylist that’s native to localb.do will be accessed and altered by instructions run in localb.do, however not by instructions run in locala.do.

Determine 2: Native macros are native to do-files
graph1

Finished and Undone

I primarily supplied you with a technical appendix to the earlier #StataProgramming put up. I illustrated that world macros are world and that native macros are native. I take advantage of the ideas developed up to now to current an ado-command within the subsequent put up.



GenCtrl — A Formal Controllability Toolkit for Generative Fashions

Dr. Mike
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GenCtrl — A Formal Controllability Toolkit for Generative Fashions


As generative fashions grow to be ubiquitous, there’s a crucial want for fine-grained management over the technology course of. But, whereas managed technology strategies from prompting to fine-tuning proliferate, a elementary query stays unanswered: are these fashions really controllable within the first place? On this work, we offer a theoretical framework to formally reply this query. Framing human-model interplay as a management course of, we suggest a novel algorithm to estimate the controllable units of fashions in a dialogue setting. Notably, we offer formal ensures on the estimation error as a perform of pattern complexity: we derive probably-approximately appropriate bounds for controllable set estimates which might be distribution-free, make use of no assumptions aside from output boundedness, and work for any black-box nonlinear management system (i.e., any generative mannequin). We empirically display the theoretical framework on completely different duties in controlling dialogue processes, for each language fashions and text-to-image technology. Our outcomes present that mannequin controllability is surprisingly fragile and extremely depending on the experimental setting. This highlights the necessity for rigorous controllability evaluation, shifting the main target from merely trying management to first understanding its elementary limits.

  • † Universitat Pompeu Fabra
  • ‡ Stanford College
Animated GIF demonstrating controllability and calibration behavior in a generative model using the proposed framework.

CIOs say they would not pull workloads again from the cloud

Dr. Mike
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CIOs say they would not pull workloads again from the cloud


CIOs have steadily moved their workloads to the cloud for almost 20 years, usually embracing cloud-first or cloud-only insurance policies. However some are reversing course, transferring sure workloads and knowledge again from the general public cloud to on-premises infrastructure. 

The 2025 State of the Cloud Report from Flexera, an IT administration software program supplier, discovered that 21% of 759 survey respondents repatriated workloads and knowledge, citing price, safety and reliability considerations. 

Nonetheless, not all CIOs see repatriation as the precise reply. Some say they continue to be firmly dedicated to cloud environments, arguing that cloud stays the very best atmosphere for contemporary workloads — particularly these utilizing AI — so long as programs are correctly configured and managed to manage prices and preserve safety and pace.

So, we requested two CIOs, “What workload would you not transfer to the cloud once more for those who had been beginning over at present?”

  • Josh Hamit, senior vice chairman and CIO at Altra Federal Credit score Union and a member of the ISACA Rising Traits Working Group.

  • Sue Bergamo, a 25-year IT and cybersecurity chief now offering fractional CIO and CISO companies by means of BTE Companions and a trustee with the Boston chapter of the Society for Data Administration.

Associated:Ask the Consultants: The cloud price reckoning

Each answered: none — and defined why. 

Their responses, edited for readability and size, comply with. 

Josh Hamit, senior vice chairman and CIO, Altra Federal Credit score Union

Hamit: ‘We’ll maintain increasing our cloud footprint’

“I’ve been pondering whether or not we now have moved any workloads into the cloud that we now have later regretted, and I truthfully can’t consider something that stands out. That’s most likely extra a results of our cloud technique taking a gradual strategy versus going all-in.

“We nonetheless run a lot of our workloads inside our in-house knowledge facilities and have progressively began to maneuver and check extra programs within the cloud. A few of our vital workloads haven’t been ‘formally’ supported within the cloud or haven’t been confirmed out, so we have additionally needed to wait on distributors to make sure their platforms can function successfully in cloud suppliers like AWS or Azure. We’re beginning to see a whole lot of progress in that space, so I anticipate we’ll maintain increasing our cloud footprint in 2026 and past.”

Lean on skilled companions 

“What I’ll add about our cloud journey is that we have been very deliberate in working with skilled companions which have helped us navigate migrations. As we have leveraged extra Microsoft cloud companies (e.g., SharePoint On-line, OneDrive, Material, and so forth.), we now have leaned on companions to assist us guarantee a stable architectural and safe basis — for instance, establishing Microsoft Purview for knowledge classification and knowledge loss prevention controls. I believe that technique has helped stabilize our cloud migrations and keep away from laborious classes realized and even regrets.

Associated:The yr we reclaim our knowledge from a brittle cloud and shadow AI

“I am positive a whole lot of organizations which have gone by means of a fast-paced migration into the cloud have most likely recognized workloads that simply weren’t very appropriate for the cloud and doubtless want they might possibly return.”

Cloud is ‘the place innovation is occurring’

“However cloud is certainly one thing that’s completely a part of our know-how and organizational technique. That is the place the innovation is occurring. We’re seeing a whole lot of capabilities that cloud is providing with direct tie-ins to AI and issues that simply are far more troublesome to do in an on-prem atmosphere.

“Cloud has extra scalability and the flexibility to spin programs up faster. These forms of capabilities are key to our pace and agility for positive.”

Sue Bergamo, Global CIO/CISO, BTE Partners

Sue Bergamo, CIO and CISO, BTE Companions

Bergamo: ‘An atmosphere that may broaden’

“From my vantage level as a CIO and cloud architect, I might transfer each workload to the cloud except it was one thing critically high secret. I like the whole lot in regards to the cloud: the enormity of it, the range of it, the structure. It truly is the most important knowledge heart on the planet. But it surely’s not only a knowledge heart; it is a fruits of information facilities. It offers you an atmosphere that may actually broaden worldwide.”

Associated:Lumen’s CTO on the emergence of ‘Cloud 2.0’

Configuration is vital

“As soon as you know the way it really works, it is no much less safe or no safer than an on-prem atmosphere. Give it some thought, you’ve received public cloud environments that huge corporations like Microsoft or Amazon are defending after which you will have your atmosphere inside that atmosphere that your organization is defending. So, it’’ nearly like a double layer of safety so long as you are doing it the precise method.

“You have to have good architects who know methods to set the atmosphere up, whether or not it is on-prem or within the cloud.

“From a latency perspective, you need to configure and arrange the precise atmosphere within the cloud for the workload that you’ve got — similar to with an on-prem atmosphere. And for those who shortchange the server dimension and the CPU dimension, you are going to have latency.

“There will be overage prices with cloud for those who do not configure appropriately. The cloud expands based mostly in your workloads and your useful resource wants, so for those who exceed your present atmosphere when it scales, you’re going to have overage costs. However for those who configure appropriately, you should not. That is similar to in an on-prem atmosphere: In case your workloads exceed the dimensions of your atmosphere, you have to exit and purchase extra gear. It is the identical idea with cloud, besides it occurs just about.”



So, how come we will use TensorFlow from R?

Dr. Mike
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So, how come we will use TensorFlow from R?

Which pc language is most intently related to TensorFlow? Whereas on the TensorFlow for R weblog, we might in fact like the reply to be R, chances are high it’s Python (although TensorFlow has official bindings for C++, Swift, Javascript, Java, and Go as nicely).

So why is it you possibly can outline a Keras mannequin as

library(keras)
mannequin <- keras_model_sequential() %>%
  layer_dense(items = 32, activation = "relu") %>%
  layer_dense(items = 1)

(good with %>%s and all!) – then prepare and consider it, get predictions and plot them, all that with out ever leaving R?

The brief reply is, you may have keras, tensorflow and reticulate put in.
reticulate embeds a Python session inside the R course of. A single course of means a single handle house: The identical objects exist, and may be operated upon, no matter whether or not they’re seen by R or by Python. On that foundation, tensorflow and keras then wrap the respective Python libraries and allow you to write R code that, in actual fact, seems like R.

This submit first elaborates a bit on the brief reply. We then go deeper into what occurs within the background.

One notice on terminology earlier than we leap in: On the R aspect, we’re making a transparent distinction between the packages keras and tensorflow. For Python we’re going to use TensorFlow and Keras interchangeably. Traditionally, these have been completely different, and TensorFlow was generally regarded as one attainable backend to run Keras on, in addition to the pioneering, now discontinued Theano, and CNTK. Standalone Keras does nonetheless exist, however current work has been, and is being, performed in tf.keras. In fact, this makes Python Keras a subset of Python TensorFlow, however all examples on this submit will use that subset so we will use each to seek advice from the identical factor.

So keras, tensorflow, reticulate, what are they for?

Firstly, nothing of this could be attainable with out reticulate. reticulate is an R package deal designed to permit seemless interoperability between R and Python. If we completely needed, we may assemble a Keras mannequin like this:

We may go on including layers …

m$add(tf$keras$layers$Dense(32, "relu"))
m$add(tf$keras$layers$Dense(1))
m$layers
[[1]]


[[2]]

However who would wish to? If this have been the one method, it’d be much less cumbersome to straight write Python as an alternative. Plus, as a consumer you’d should know the whole Python-side module construction (now the place do optimizers reside, at the moment: tf.keras.optimizers, tf.optimizers …?), and sustain with all path and title modifications within the Python API.

That is the place keras comes into play. keras is the place the TensorFlow-specific usability, re-usability, and comfort options reside.
Performance offered by keras spans the entire vary between boilerplate-avoidance over enabling elegant, R-like idioms to offering technique of superior function utilization. For instance for the primary two, take into account layer_dense which, amongst others, converts its items argument to an integer, and takes arguments in an order that permit it to be “pipe-added” to a mannequin: As a substitute of

mannequin <- keras_model_sequential()
mannequin$add(layer_dense(items = 32L))

we will simply say

mannequin <- keras_model_sequential()
mannequin %>% layer_dense(items = 32)

Whereas these are good to have, there’s extra. Superior performance in (Python) Keras principally depends upon the flexibility to subclass objects. One instance is customized callbacks. Should you have been utilizing Python, you’d should subclass tf.keras.callbacks.Callback. From R, you possibly can create an R6 class inheriting from KerasCallback, like so

CustomCallback <- R6::R6Class("CustomCallback",
    inherit = KerasCallback,
    public = listing(
      on_train_begin = operate(logs) {
        # do one thing
      },
      on_train_end = operate(logs) {
        # do one thing
      }
    )
  )

It is because keras defines an precise Python class, RCallback, and maps your R6 class’ strategies to it.
One other instance is customized fashions, launched on this weblog a few 12 months in the past.
These fashions may be skilled with customized coaching loops. In R, you employ keras_model_custom to create one, for instance, like this:

m <- keras_model_custom(title = "mymodel", operate(self) {
  self$dense1 <- layer_dense(items = 32, activation = "relu")
  self$dense2 <- layer_dense(items = 10, activation = "softmax")
  
  operate(inputs, masks = NULL) {
    self$dense1(inputs) %>%
      self$dense2()
  }
})

Right here, keras will ensure an precise Python object is created which subclasses tf.keras.Mannequin and when referred to as, runs the above nameless operate().

In order that’s keras. What in regards to the tensorflow package deal? As a consumer you solely want it when you must do superior stuff, like configure TensorFlow system utilization or (in TF 1.x) entry components of the Graph or the Session. Internally, it’s utilized by keras closely. Important inside performance contains, e.g., implementations of S3 strategies, like print, [ or +, on Tensors, so you can operate on them like on R vectors.

Now that we know what each of the packages is “for”, let’s dig deeper into what makes this possible.

Show me the magic: reticulate

Instead of exposing the topic top-down, we follow a by-example approach, building up complexity as we go. We’ll have three scenarios.

First, we assume we already have a Python object (that has been constructed in whatever way) and need to convert that to R. Then, we’ll investigate how we can create a Python object, calling its constructor. Finally, we go the other way round: We ask how we can pass an R function to Python for later usage.

Scenario 1: R-to-Python conversion

Let’s assume we have created a Python object in the global namespace, like this:

So: There is a variable, called x, with value 1, living in Python world. Now how do we bring this thing into R?

We know the main entry point to conversion is py_to_r, defined as a generic in conversion.R:

py_to_r <- function(x) {
  ensure_python_initialized()
  UseMethod("py_to_r")
}

… with the default implementation calling a function named py_ref_to_r:

Rcpp : You simply write your C++ operate, and Rcpp takes care of compilation and offers the glue code essential to name this operate from R.

So py_ref_to_r actually is written in C++:

.Name(`_reticulate_py_ref_to_r`, x)
}

which lastly wraps the “actual” factor, the C++ operate py_ref_to_R we noticed above.

By way of py_ref_to_r_with_convert in #1, a one-liner that extracts an object’s “convert” function (see under)

Extending Python Information.

In official phrases, what reticulate does it embed and prolong Python.
Embed, as a result of it allows you to use Python from inside R. Lengthen, as a result of to allow Python to name again into R it must wrap R features in C, so Python can perceive them.

As a part of the previous, the specified Python is loaded (Py_Initialize()); as a part of the latter, two features are outlined in a brand new module named rpycall, that will probably be loaded when Python itself is loaded.

International Interpreter Lock, this isn’t mechanically the case when different implementations are used, or C is used straight. So call_python_function_on_main_thread makes positive that except we will execute on the primary thread, we wait.

That’s it for our three “spotlights on reticulate”.

Wrapup

It goes with out saying that there’s lots about reticulate we didn’t cowl on this article, equivalent to reminiscence administration, initialization, or specifics of knowledge conversion. Nonetheless, we hope we have been in a position to shed a bit of sunshine on the magic concerned in calling TensorFlow from R.

R is a concise and stylish language, however to a excessive diploma its energy comes from its packages, together with people who let you name into, and work together with, the skin world, equivalent to deep studying frameworks or distributed processing engines. On this submit, it was a particular pleasure to give attention to a central constructing block that makes a lot of this attainable: reticulate.

Thanks for studying!

Is Samsung utilizing a more moderen periscope lens on the Galaxy S26 Extremely? This is what we all know (Up to date)

Dr. Mike
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Is Samsung utilizing a more moderen periscope lens on the Galaxy S26 Extremely? This is what we all know (Up to date)


TL;DR

  • The Galaxy S26 Extremely replaces the standard periscope 5x zoom with a brand new design, seemingly utilizing Samsung’s ALoP (All Lenses on Prism) expertise.
  • Whereas the brand new setup permits for a wider aperture and round bokeh, the minimal focus distance has regressed from 26cm to 52cm.
  • Samsung has eliminated “periscope” from its official S26 Extremely supplies, regardless of the brand new {hardware} nonetheless utilizing light-bending prisms.

Replace: March 6, 2026 (9:12 PM ET): Samsung has confirmed in an announcement to SammyGuru that the Galaxy S26 Extremely does certainly make the most of ALoP tech.

Unique article: March 6, 2026 (05:25 AM ET): Samsung reserved a lot of the spotlight upgrades on the Galaxy S26 sequence for the Galaxy S26 Extremely, together with a wider aperture on the first digital camera and the 5x telephoto digital camera. One change that flew below the radar is that the 5x digital camera is not a periscope zoom lens. As a substitute, Samsung has switched to a unique lens sort for the 5x zoom digital camera.

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Galaxy S26 Extremely has a unique 5x optical zoom digital camera setup

A report from GSMArena notes that the brand new Galaxy S26 Extremely makes use of a “conventional” lens design for its 5x optical zoom digital camera, with the lens parts and the sensor parallel to the cellphone. In distinction, the S25 Extremely makes use of a periscope lens design for its 5x optical zoom digital camera, during which a prism bends gentle 90°, so the lens parts and the sensor are perpendicular to the cellphone.

Due to this variation, the Galaxy S26 Extremely’s 5x optical zoom digital camera has a poorer minimal focus distance of 52cm. In distinction, the Galaxy S25 Extremely’s 5x optical zoom digital camera may focus at 26cm and past.

Galaxy S26 Ultra vs Galaxy S25 Ultra Minimum focusing distance

For individuals who love utilizing the telephoto digital camera for close-up pictures, it is a noticeable downgrade — although it’s vital to caveat that most individuals use the 5x zoom digital camera for zoom pictures on far-away topics.

The report additional notes that the totally different lens assemblies create totally different bokeh. The Galaxy S25 Extremely produces a extra rectangular bokeh for out-of-focus lights, whereas the Galaxy S26 Extremely produces a extra oval/round bokeh.

Galaxy S26 Ultra vs Galaxy S25 Ultra Bokeh light shape

Samsung’s specs and advertising and marketing for the Galaxy S26 Extremely make no point out of a “periscope,” whereas these for the Galaxy S25 Extremely do. The report alludes to a motive for the lens swap and says it’s seemingly not as a result of wider aperture, however doesn’t but share the precise discovering.

Is Samsung utilizing ALoP on the Galaxy S26 Extremely?

There’s hypothesis that the Galaxy S26 Extremely makes use of Samsung’s ALoP (All Lenses on Prism) expertise for its zoom lens. In an ALoP resolution, the sensor sits perpendicular to the cellphone, however the lens parts sit on prime of the prism (somewhat than in between the prism and the sensor), parallel to the cellphone.

This enables for a smaller digital camera module whereas permitting for a sooner aperture. This must also clarify the round bokeh (for the reason that rectangular prism isn’t the primary entry level for gentle on this setup).

Conventional Folded Zoom camera module vs ALoP camera module

Nonetheless, an ALoP setup can’t be thought of a “conventional” lens design, because it combines perpendicular and parallel parts, so we’re interested by GSMArena‘s precise findings on the Galaxy S26 Extremely’s 5x optical zoom digital camera since they are saying it goes again to a “conventional” lens design.

ALOP camera Samsung comparison

Confusingly, whereas Samsung Semiconductor doesn’t publicly classify ALoP as a “periscope” zoom digital camera, the usage of a prism within the digital camera module to bend gentle by 90° does technically make it a “periscope” zoom digital camera. ALoP merely reconfigures the structure of what’s known as a “standard folded zoom” digital camera module — periscope zoom cameras with the visibly rectangular lens opening.

Thus, Samsung’s hesitation in assigning the phrase “periscope” to the Galaxy S26 Extremely’s digital camera setup stays unexplained. Samsung’s Cell division typically neglects a deep dive into technical specs, so it’s not fully stunning that it doesn’t point out both ALoP or periscope zoom in any advertising and marketing supplies.

We’ve reached out to Samsung for clarification on the Galaxy S26 Extremely’s 5x optical zoom digital camera: whether or not it makes use of the standard folded-zoom design or the newer ALoP design, and whether or not it’s nonetheless labeled as a periscope zoom digital camera. We’ll maintain you up to date after we hear again from the corporate.

Thanks for being a part of our neighborhood. Learn our Remark Coverage earlier than posting.

NASA modified an asteroid’s orbital path across the solar, a primary for humankind

Dr. Mike
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NASA modified an asteroid’s orbital path across the solar, a primary for humankind


March 6, 2026

3 min learn

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NASA modified an asteroid’s orbital path across the solar, a primary for humankind

Smashing a spacecraft right into a binary asteroid system has managed to change its path across the solar, a brand new evaluation reveals

By Jackie Flynn Mogensen edited by Claire Cameron

An asteroid in space.

The asteroid binary, Didymos and Dimorphos.

In September 2022 NASA smashed a spacecraft into an asteroid. Referred to as Dimorphos, the rock is the smaller asteroid in a binary pair; it orbits a bigger one referred to as Didymos. Slamming into Dimorphos instructed scientists quite a few issues: the collision managed to jolt the asteroid barely off track, slowing its orbit round its greater companion by round half-hour and suggesting {that a} related technique may assist defend Earth from encroaching asteroids.

However now the mission has revealed one thing much more profound: by slowing Dimorphos’s orbit, NASA has managed to change all the binary system’s orbit across the solar. The act of adjusting a pure object’s orbit round our dwelling star marks a primary for humanity.

In a examine revealed on Friday within the journal Science Advances, researchers clarify how the unique collision with Dimorphos slowed all the binary’s photo voltaic orbit by round 12 microns per second. The brand new information might assist NASA higher put together to deflect asteroids which will sooner or later threaten the planet, the researchers say.

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“If [an asteroid] is ever on its solution to hitting the Earth, we are able to extra confidently now say that we now have the power to push them round and away from the Earth,” says the examine’s lead creator Rahil Makadia, who was a planetary protection scientist on the College of Illinois Urbana-Champaign when it was carried out.

Dimorphos and Didymos don’t pose a hazard to Earth. However they have been chosen because the targets for the Double Asteroid Redirection Take a look at (DART) to evaluate our planetary protection capabilities, Makadia explains. DART concerned ramming a 570-kilogram spacecraft shifting at some 22,530 kilometers an hour into Dimorphos in a bid to sluggish its journey round Didymos. Nonetheless, scientists believed that the check simply may be capable to change the pair’s heliocentric orbit, too.

“This was additionally one thing we had considered even earlier than the DART influence,” Makadia says. “However what we did not know was the extent to which this is able to occur and whether or not or not we’d be capable to measure it in any respect.”

Makadia and his staff mixed radar measurements and observations of the binary system because it handed in entrance of the solar in an effort to examine the asteroids’ pre-DART orbit with their postimpact path. The system’s roughly two-year journey across the solar slowed by round 11.7 microns per second, or round 370 meters per 12 months, the evaluation discovered.

The discovering is “very cool,” says Jay McMahon, an affiliate professor of aerospace engineering sciences on the College of Colorado Boulder. McMahon has labored with the DART staff prior to now however was not concerned with the brand new examine. “Like all experiment, you may make a prediction about what’s going to occur, however then you must take the measurements to show it,” he says. “And so, this proves it.”

Makadia and his colleagues additionally calculated the collision’s “momentum enhancement issue,” which primarily measured how a lot the lack of rocks, mud and different materials throughout influence contributed to the change in orbit. “It mainly doubled the push from the spacecraft alone,” Makadia says. The staff additionally estimated the mass of every asteroid individually for the primary time.

The findings might have broader implications past planetary protection, notes Masatoshi Hirabayashi, one other DART scientist who was circuitously concerned with the brand new examine and an affiliate professor in aerospace engineering on the Georgia Institute of Expertise. Figuring out the asteroids’ respective mass and densities might assist scientists higher perceive their construction, “a key piece of knowledge of how this binary asteroid fashioned,” he says.

Extra information are coming quickly: later this 12 months the European House Company’s Hera mission is about to take a better have a look at DART’s impact on Dimorphos and Didymos, together with the influence crater left by the collision.

“As soon as we get the measurements from [Hera], we are able to then come at these numbers from a totally unbiased approach and make sure them and perhaps construct on them as nicely,” Makadia says.

It’s Time to Stand Up for Science

If you happen to loved this text, I’d prefer to ask on your help. Scientific American has served as an advocate for science and trade for 180 years, and proper now could be the most crucial second in that two-century historical past.

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If you happen to subscribe to Scientific American, you assist make sure that our protection is centered on significant analysis and discovery; that we now have the assets to report on the selections that threaten labs throughout the U.S.; and that we help each budding and dealing scientists at a time when the worth of science itself too usually goes unrecognized.

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It’s Pi Day—Fall in Love (with Financial savings)!

Dr. Mike
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0
It’s Pi Day—Fall in Love (with Financial savings)!


Calling all learners!

Whether or not you have fun March 14 with an enormous slice of gooey fruit-filled pastry, by including a Raspberry Pi microcomputer to your property lab, or by feverishly writing out as many locations of Pi as you possibly can, we’ve bought a further solution to mark the event—it’s our annual Pi Day sale!

In the event you’ve been hankering to start out a brand new Studying Path, studying lab, or examination overview to prepare for a certification however haven’t jumped in but, that is your signal to get began.

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5 Causes a Raspberry Pi Belongs in Your Community Lab

A Manufacturing-Fashion NetworKit 11.2.1 Coding Tutorial for Massive-Scale Graph Analytics, Communities, Cores, and Sparsification

Dr. Mike
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0
A Manufacturing-Fashion NetworKit 11.2.1 Coding Tutorial for Massive-Scale Graph Analytics, Communities, Cores, and Sparsification


On this tutorial, we implement a production-grade, large-scale graph analytics pipeline in NetworKit, specializing in velocity, reminiscence effectivity, and version-safe APIs in NetworKit 11.2.1. We generate a large-scale free community, extract the most important linked element, after which compute structural spine indicators by way of k-core decomposition and centrality rating. We additionally detect communities with PLM and quantify high quality utilizing modularity; estimate distance construction utilizing efficient and estimated diameters; and, lastly, sparsify the graph to scale back price whereas preserving key properties. We export the sparsified graph as an edgelist so we are able to reuse it in downstream workflows, benchmarking, or graph ML preprocessing.

!pip -q set up networkit pandas numpy psutil


import gc, time, os
import numpy as np
import pandas as pd
import psutil
import networkit as nk


print("NetworKit:", nk.__version__)
nk.setNumberOfThreads(min(2, nk.getMaxNumberOfThreads()))
nk.setSeed(7, False)


def ram_gb():
   p = psutil.Course of(os.getpid())
   return p.memory_info().rss / (1024**3)


def tic():
   return time.perf_counter()


def toc(t0, msg):
   print(f"{msg}: {time.perf_counter()-t0:.3f}s | RAM~{ram_gb():.2f} GB")


def report(G, title):
   print(f"n[{name}] nodes={G.numberOfNodes():,} edges={G.numberOfEdges():,} directed={G.isDirected()} weighted={G.isWeighted()}")


def force_cleanup():
   gc.acquire()


PRESET = "LARGE"


if PRESET == "LARGE":
   N = 120_000
   M_ATTACH = 6
   AB_EPS = 0.12
   ED_RATIO = 0.9
elif PRESET == "XL":
   N = 250_000
   M_ATTACH = 6
   AB_EPS = 0.15
   ED_RATIO = 0.9
else:
   N = 80_000
   M_ATTACH = 6
   AB_EPS = 0.10
   ED_RATIO = 0.9


print(f"nPreset={PRESET} | N={N:,} | m={M_ATTACH} | approx-betweenness epsilon={AB_EPS}")

We arrange the Colab surroundings with NetworKit and monitoring utilities, and we lock in a steady random seed. We configure thread utilization to match the runtime and outline timing and RAM-tracking helpers for every main stage. We select a scale preset that controls graph dimension and approximation knobs so the pipeline stays giant however manageable.

t0 = tic()
G = nk.mills.BarabasiAlbertGenerator(M_ATTACH, N).generate()
toc(t0, "Generated BA graph")
report(G, "G")


t0 = tic()
cc = nk.elements.ConnectedComponents(G)
cc.run()
toc(t0, "ConnectedComponents")
print("elements:", cc.numberOfComponents())


if cc.numberOfComponents() > 1:
   t0 = tic()
   G = nk.graphtools.extractLargestConnectedComponent(G, compactGraph=True)
   toc(t0, "Extracted LCC (compactGraph=True)")
   report(G, "LCC")


force_cleanup()

We generate a big Barabási–Albert graph and instantly log its dimension and runtime footprint. We compute linked elements to grasp fragmentation and shortly diagnose topology. We extract the most important linked element and compact it to enhance the remainder of the pipeline’s efficiency and reliability.

t0 = tic()
core = nk.centrality.CoreDecomposition(G)
core.run()
toc(t0, "CoreDecomposition")
core_vals = np.array(core.scores(), dtype=np.int32)
print("degeneracy (max core):", int(core_vals.max()))
print("core stats:", pd.Sequence(core_vals).describe(percentiles=[0.5, 0.9, 0.99]).to_dict())


k_thr = int(np.percentile(core_vals, 97))


t0 = tic()
nodes_backbone = [u for u in range(G.numberOfNodes()) if core_vals[u] >= k_thr]
G_backbone = nk.graphtools.subgraphFromNodes(G, nodes_backbone)
toc(t0, f"Spine subgraph (ok>={k_thr})")
report(G_backbone, "Spine")


force_cleanup()


t0 = tic()
pr = nk.centrality.PageRank(G, damp=0.85, tol=1e-8)
pr.run()
toc(t0, "PageRank")


pr_scores = np.array(pr.scores(), dtype=np.float64)
top_pr = np.argsort(-pr_scores)[:15]
print("High PageRank nodes:", top_pr.tolist())
print("High PageRank scores:", pr_scores[top_pr].tolist())


t0 = tic()
abw = nk.centrality.ApproxBetweenness(G, epsilon=AB_EPS)
abw.run()
toc(t0, "ApproxBetweenness")


abw_scores = np.array(abw.scores(), dtype=np.float64)
top_abw = np.argsort(-abw_scores)[:15]
print("High ApproxBetweenness nodes:", top_abw.tolist())
print("High ApproxBetweenness scores:", abw_scores[top_abw].tolist())


force_cleanup()

We compute the core decomposition to measure degeneracy and determine the community’s high-density spine. We extract a spine subgraph utilizing a excessive core-percentile threshold to deal with structurally essential nodes. We run PageRank and approximate betweenness to rank nodes by affect and bridge-like conduct at scale.

t0 = tic()
plm = nk.group.PLM(G, refine=True, gamma=1.0, par="balanced")
plm.run()
toc(t0, "PLM group detection")


half = plm.getPartition()
num_comms = half.numberOfSubsets()
print("communities:", num_comms)


t0 = tic()
Q = nk.group.Modularity().getQuality(half, G)
toc(t0, "Modularity")
print("modularity Q:", Q)


sizes = np.array(checklist(half.subsetSizeMap().values()), dtype=np.int64)
print("group dimension stats:", pd.Sequence(sizes).describe(percentiles=[0.5, 0.9, 0.99]).to_dict())


t0 = tic()
eff = nk.distance.EffectiveDiameter(G, ED_RATIO)
eff.run()
toc(t0, f"EffectiveDiameter (ratio={ED_RATIO})")
print("efficient diameter:", eff.getEffectiveDiameter())


t0 = tic()
diam = nk.distance.EstimatedDiameter(G)
diam.run()
toc(t0, "EstimatedDiameter")
print("estimated diameter:", diam.getDiameter().distance)


force_cleanup()

We detect communities utilizing PLM and document the variety of communities discovered on the massive graph. We compute modularity and summarize community-size statistics to validate the construction slightly than merely trusting the partition. We estimate international distance conduct utilizing efficient diameter and estimated diameter in an API-safe method for NetworKit 11.2.1.

t0 = tic()
sp = nk.sparsification.LocalSimilaritySparsifier(G, 0.7)
G_sparse = sp.getSparsifiedGraph()
toc(t0, "LocalSimilarity sparsification (alpha=0.7)")
report(G_sparse, "Sparse")


t0 = tic()
pr2 = nk.centrality.PageRank(G_sparse, damp=0.85, tol=1e-8)
pr2.run()
toc(t0, "PageRank on sparse")
pr2_scores = np.array(pr2.scores(), dtype=np.float64)
print("High PR nodes (sparse):", np.argsort(-pr2_scores)[:15].tolist())


t0 = tic()
plm2 = nk.group.PLM(G_sparse, refine=True, gamma=1.0, par="balanced")
plm2.run()
toc(t0, "PLM on sparse")
part2 = plm2.getPartition()
Q2 = nk.group.Modularity().getQuality(part2, G_sparse)
print("communities (sparse):", part2.numberOfSubsets(), "| modularity (sparse):", Q2)


t0 = tic()
eff2 = nk.distance.EffectiveDiameter(G_sparse, ED_RATIO)
eff2.run()
toc(t0, "EffectiveDiameter on sparse")
print("efficient diameter (orig):", eff.getEffectiveDiameter(), "| (sparse):", eff2.getEffectiveDiameter())


force_cleanup()


out_path = "/content material/networkit_large_sparse.edgelist"
t0 = tic()
nk.graphio.EdgeListWriter("t", 0).write(G_sparse, out_path)
toc(t0, "Wrote edge checklist")
print("Saved:", out_path)


print("nAdvanced large-graph pipeline full.")

We sparsify the graph utilizing native similarity to scale back the variety of edges whereas retaining helpful construction for downstream analytics. We rerun PageRank, PLM, and efficient diameter on the sparsified graph to examine whether or not key indicators stay constant. We export the sparsified graph as an edgelist so we are able to reuse it throughout classes, instruments, or extra experiments.

In conclusion, we developed an end-to-end, scalable NetworKit workflow that mirrors actual large-network evaluation: we began from technology, stabilized the topology with LCC extraction, characterised the construction by way of cores and centralities, found communities and validated them with modularity, and captured international distance conduct by way of diameter estimates. We then utilized sparsification to shrink the graph whereas protecting it analytically significant and saving it for repeatable pipelines. The tutorial offers a sensible template we are able to reuse for actual datasets by changing the generator with an edgelist reader, whereas protecting the identical evaluation phases, efficiency monitoring, and export steps.

Take a look at the Full Codes right hereAdditionally, be at liberty to comply with us on Twitter and don’t overlook to hitch our 120k+ ML SubReddit and Subscribe to our E-newsletter. Wait! are you on telegram? now you’ll be able to be part of us on telegram as effectively.


February jobs report: What we discovered about Trump’s financial system

Dr. Mike
-
0
February jobs report: What we discovered about Trump’s financial system


This story appeared in The Logoff, a each day e-newsletter that helps you keep knowledgeable in regards to the Trump administration with out letting political information take over your life. Subscribe right here.

Welcome to The Logoff: The basics of the American financial system are…beginning to look just a little regarding.

What occurred? On Friday, we discovered that the US financial system shed some 92,000 jobs final month — a far cry from a predicted achieve of fifty,000 and a sign in regards to the general well being of the financial system.

Unemployment additionally edged up barely to 4.4 %, and jobs numbers from December had been revised downward, from a achieve of 48,000 to a lack of 17,000. The financial system nonetheless gained jobs in January, however general, these revisions meant job progress during the last three months was negligible.

What’s the context? Friday’s financial information comes at an particularly dangerous time for President Donald Trump, who’s presently additionally staring down an financial shock of his personal making. The price of oil has been rising all week due to the battle in Iran, which has thrown a good portion of the worldwide vitality provide into chaos.

Within the US, fuel costs are as much as $3.32/gallon on common, nearly 34 cents over final Friday. As my colleague Eric Levitz has written, costlier fuel doesn’t simply imply short-term ache for customers; unchecked, rising oil costs might each enhance inflation and gradual financial progress.

What’s the massive image? For now, each Friday’s jobs numbers and rising vitality costs are finest regarded as warning indicators — not excellent news, however not catastrophes, both. That might effectively change, although, as Trump’s open-ended battle continues.

And with that, it’s time to sign off…

Hello, readers, some excellent news: We’re not performed with the Olympics but. For those who’re craving extra curling, the Winter Paralympics began at present. NPR has a fantastic primer right here, and I additionally loved this story from The Athletic (a present hyperlink) on the technological advances behind sit skis, which some Para athletes use in downhill occasions.

As all the time, thanks for studying, have a fantastic weekend, and we’ll see you again right here on Monday!

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