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Exam Code: C1000-004 Practice exam 2022 by team
C1000-004 IBM Curam SPM V7.X Application Developer

Exam ID : C1000-004
Exam Title : IBM Cúram SPM V7.X Application Developer
Questions : 70
Pass Marks : 45
Duration : 90 minutes
Exam Type : MCQ

Section 1: IBM Curam SPM Technical Infrastructure 21%
Differentiate between the components of IBM Cúram Social Program Management (SPM), including the Application Modules and the SPM Platform
State the purpose of the main components in the runtime architecture
List the main sources of information for customizing the IBM Cúram SPM application
Identify the project folders, file types, and tools in the IBM Cúram SPM Application Development Environment (ADE)
Select the appropriate build target for a particular task
Identify the relevant features for localizing applications
Perform tracing and troubleshooting
Describe the recommended approach for customizing the out-of-the-box application
Perform impact analysis to determine the changes required for customizations and IBM Cúram SPM version upgrades

Section 2: Server-Side Development 30%
Model the following classes: Domain Definition, Entity, Struct, Process, and Façade
Model the following associations: Index, Foreign Key, Assignable, and Aggregation
Define appropriate stereotype operations for Entity, Process, and Facade classes
Configure Cúram properties in the application model
Use generated artifacts in application code
Define code tables, data manager files, and message files
Implement exception handling and validation
Import and export configuration data

Section 3: Client-Side Development 20%
Implement UIM pages for CRUDL (create, read, update, delete, and list) applications Configure application navigation features
Implement the following client features: multiple submit, select lists, views, wizards, in-page navigation, help, editable lists, expandable lists, and containers
Add logic to UIM pages using scriptlets, JavaScript, and the CONDITION element

Section 4: Server-Side Customization 21%
Customize the following artifacts compliantly: message files, code tables, data manager files, server configuration files, and configurable validations
Customize modeled classes compliantly
Customize non-modeled classes compliantly
Implement web services and REST APIs for real-time integration
Implement custom events, deferred processes, and batch jobs

Section 5: Client-Side Customization 8%
Customize pages, navigation, and property files compliantly
List and describe the options for customizing widgets

IBM Curam SPM V7.X Application Developer
IBM Application tricks
Killexams : IBM Application tricks - BingNews Search results Killexams : IBM Application tricks - BingNews Killexams : Emulating The IBM PC On An ESP32

The IBM PC spawned the basic architecture that grew into the dominant Wintel platform we know today. Once heavy, cumbersome and power thirsty, it’s a machine that you can now emulate on a single board with a cheap commodity microcontroller. That’s thanks to work from [Fabrizio Di Vittorio], who has shared a how-to on Youtube. 

The full playlist is quite something to watch, showing off a huge number of old-school PC applications and games running on the platform. There’s QBASIC, FreeDOS, Windows 3.0, and yes, of course, Flight Simulator. The latter game was actually considered somewhat of a de facto standard for PC compatibility in the 1980s, so the fact that the ESP32 can run it with [Fabrizio’s] code suggests he’s done well.

It’s amazingly complete, with the ESP32 handling everything from audio and video to sound output and keyboard and mouse inputs. It’s a testament to the capability of modern microcontrollers that this is such a simple feat in 2021.

We’ve seen the ESP32 emulate 8-bit gaming systems before, too. If you remember [Fabrizio’s] name, it’s probably from his excellent FabGL library. Videos after the break.

Sun, 03 Jul 2022 12:00:00 -0500 Lewin Day en-US text/html
Killexams : IBM’s human-centered approach is the only big tech blueprint AI startups should follow No result found, try new keyword!He referred to these agents as “foundational models,” meaning they can be used for multiple applications ... parlor tricks that big tech’s spending billions of dollars on, IBM will still ... Mon, 20 Jun 2022 08:50:00 -0500 Killexams : You Got Something On Your Processor Bus: The Joys Of Hacking ISA And PCI

Although the ability to expand a home computer with more RAM, storage and other features has been around for as long as home computers exist, it wasn’t until the IBM PC that the concept of a fully open and modular computer system became mainstream. Instead of being limited to a system configuration provided by the manufacturer and a few add-ons that really didn’t integrate well, the concept of expansion cards opened up whole industries as well as a big hobbyist market.

The first IBM PC had five 8-bit expansion slots that were connected directly to the 8088 CPU. With the IBM PC/AT these expansion slots became 16-bit courtesy of the 80286 CPU it was built around. These slots  could be used for anything from graphics cards to networking, expanded memory or custom I/O. Though there was no distinct original name for this card edge interface, around the PC/AT era it got referred to as PC bus, as well as AT bus. The name Industry Standard Architecture (ISA) bus is a retronym created by PC clone makers.

With such openness came the ability to relatively easy and cheaply make your own cards for the ISA bus, and the subsequent and equally open PCI bus. To this day this openness allows for a vibrant ecosystem, whether one wishes to build a custom ISA or PCI soundcard, or add USB support to a 1981 IBM PC system.

But what does it take to get started with ISA or PCI expansion cards today?

The Cost of Simplicity

From top to bottom: 8-bit XT bus, 16-bit AT/ISA, 32-bit EISA.

An important thing to note about ISA and the original PC/AT bus is that it isn’t so much a generic bus as it describes devices hanging off an 8088 or 80286 addressing and data bus. This means that for example that originally the bus is as fast as the clock speed of the CPU in question: 4.77 MHz for the original PC bus and 6-8 MHz for the PC/AT. Although 8-bit cards could be used in 16-bit slots most of the time, there was no guarantee that they would work properly.

As PC clone vendors began to introduce faster CPUs in their models, the AT bus ended up being clocked at anywhere from 10 to 16 MHz. Understandably, this led to many existing AT (ISA) bus cards not working properly in those systems. Eventually, the clock for the bus was decoupled from the processor clock by most manufacturers, but despite what the acronym ‘ISA’ suggests, at no point in time was ISA truly standardized.

It was however attempted to standardize a replacement for ISA in the form of Extended ISA (EISA). Created in 1988, this featured a 32-bit bus, running at 8.33 MHz. Although it didn’t take off in consumer PCs, EISA saw some uptake in the server market, especially as a cheaper alternative to IBM’s proprietary Micro Channel architecture (MCA) bus. MCA itself was envisioned by IBM as the replacement of ISA.

Ultimately, ISA survives to this day in mostly industrial equipment and embedded applications (e.g. the LPC bus), while the rest of the industry moved on to PCI and to PCIe much later. Graphics cards saw a few detours in the form of VESA Local Bus (VLB) and Accelerated Graphics Port (AGP), which were specialized interfaces aimed at the needs of GPUs.

Getting started with new old tech

The corollary of this tumultuous history of ISA in particular is that one has to be careful when designing a new ‘ISA expansion card’. For truly wide compatibility, one could design an 8-bit card that can work with a bus speed from anywhere from 4.77 to 20 MHz. Going straight to a 16-bit card would be an option if one has no need to support 8088-based PCs. When designing a PC/104 card, there should be no compatibility issues, as it follows pretty much the most standard form of the ISA bus.

The physical interface is not a problem with either ISA or PCI, as both use edge connectors. These were picked mostly because they were cheap yet reliable, which hasn’t changed today. On the PCB end, no physical connector exists, merely the conductive ‘fingers’ that contact the contacts of the edge connector. One can use a template for this part, to get good alignment with the contacts. Also keep in mind the thickness of the PCB as the card has to make good contact. Here the common 1.6 mm seems to be a good match.

One can easily find resources for ISA and PCI design rules online if one wishes to create the edge connector themselves, such as this excellent overview on the Multi-CB (PCB manufacturer, no affiliation) site. This shows the finger spacing, and the 45 degrees taper on the edge, along with finger thickness  and distance requirements.

Useful for the electrical circuit design part is to know that ISA uses 5 V level signaling, whereas PCI can use 5 V, 3.3 V or both. For the latter, this difference is indicated using the placement of the notch in the PCI slot, as measured from the IO plate: at 56.21 mm for 3.3 V cards and 104.47 mm for 5 V. PCI cards themselves will have either one of these notches, or both if they support both voltages (Universal card).

PCI slots exist in 32-bit and 64-bit versions, of which only the former made a splash in the consumer market. On the flip-side of PCI we find PCI-X: an evolution of PCI, which saw most use in servers in its 64-bit version. PCI-X essentially doubles the maximum frequency of PCI (66 to 133 MHz), while removing 5V signaling support. PCI-X cards will often work in 3.3V PCI slots for this reason, as well as vice-versa. A 64-bit card can fall back to 32-bit mode if it is inserted into a shorter, 32-bit slot, whether PCI or PCI-X.

Driving buses

Every device on a bus adds a load which a signaling device has to overcome. In addition, on a bus with shared lines, it’s important that individual devices can disengage themselves from these shared lines when they are not using them. The standard way to deal with this is to use a tri-state buffer, such as the common 74LS244. Not only does it provide the isolation provided by a standard digital buffer circuit, it can also switch to a Hi-Z (high-impedance) state, in which it is effectively disconnected.

In the case of our ISA card, we need to have something like the 74LS244 or its bi-directional sibling 74LS245 to properly interface with the bus. Each bus signal connection needs to have an appropriate buffer or latch placed on it, which for the ISA bus is covered in detail in this article by Abhishek Dutta. A good example of a modern-day ISA card is the ‘Snark Barker’ SoundBlaster clone.

PCI could conceivably be done in such a discrete manner as well, but most commonly commercial PCI cards used I/O accelerator ASICs, which provide a simple, ISA-like interface to the card’s circuitry. These ICs are however far from cheap today (barring taking a risk with something like the WCH CH365), so a good alternative is to implement the PCI controller in an FPGA. The MCA version of the aforementioned ‘Snark Barker’ (as previously covered by us) uses a CPLD to interface with the MCA bus. Sites like OpenCores feature existing PCI target projects one could use as a starting point.

Chatting with ISA and PCI

After creating a shiny PCB with gold edge contact fingers and soldering some bus buffer ICs or an FPGA onto it, one still has to be able to actually talk the real ISA or PCI protocol. Fortunately, a lot of resources exist for the ISA protocol, such as this one for ISA. The PCI protocol is, like the PCIe protocol, a ‘trade secret’, and only officially available via the PCI-SIG website for a price. This hasn’t kept copies from the specification to leak over the past decades, however.

It’s definitely possible to use existing ISA and PCI projects as a template or reference for one’s own projects. The aforementioned CPLD/FPGA projects are a way to avoid implementing the protocol oneself and just getting to the good bits. Either way, one has to use the interrupt (IRQ) system for the respective bus (dedicated signal lines, as well as message-based in later PCI versions), with the option to use DMA (DRQn & DACKn on ISA). Covering the intricacies of the ISA and PCI bus would however take a whole article by itself. For those of us who have had ISA cards with toggle switches or (worse), ISA PnP (Plug’n’Pray) inflicted on them, a lot of this should already be familiar, however.

As with any shared bus, the essential protocol when writing or practicing involves requesting bus access from the bus master, or triggering the bus arbitration protocol with multiple bus masters in PCI. An expansion card can also be addressed directly using its bus address, as Abhishek Dutta covered in his ISA article, which on Linux involves using kernel routines (sys/io.h) to obtain access permissions before one can send data to a specific IO port on which the card can be addressed. Essentially:

if (ioperm(OUTPUT_PORT, LENGTH+1, 1)) {
if (ioperm(INPUT_PORT, LENGTH+1, 1)) {

outb(data, port);
data = inb(port);

With ISA, the IO address is set in the card, and the address decoder on the address signal lines used to determine a match. Often toggle switches or jumpers were used to allow a specific address, IRQ and DMA line. ISA PnP sought to Strengthen on this process, but effectively caused more trouble. For PCI, PnP is part of the standard: the PCI bus is scanned for devices on boot, and the onboard ROM (BIOS) queried for the card’s needs after which the address and other parameters are set up automatically.

Wrapping up

Obviously, this article has barely even covered the essentials when it comes to developing one’s own custom ISA or PCI expansion cards, but hopefully it has at least given a broad overview of the topic. A lot of what one needs depends on the type of card one wishes to develop, whether it’s a basic 8-bit ISA (PC/XT) card, or a 64-bit PCI-X one.

A lot of the fun with buses such as ISA and PCI, however, is that they are very approachable. Their bus speeds are well within the reach of hobbyist hardware and oscilloscopes in case of debugging/analysis. The use of a slower parallel data bus means that no differential signaling is used which simplifies the routing of traces.

Even though these legacy buses are not playing in the same league as PCIe, their feature set and accessibility means that it can deliver old systems a new lease on life, even if it is for something as simple as adding Flash-based storage to an original IBM PC.

[Heading image: Snark Barker ISA SoundBlaster clone board. Credit: Tube Time]

Sun, 03 Jul 2022 12:00:00 -0500 Maya Posch en-US text/html
Killexams : Interview: IBM CTO Jerry Cuomo on REST & Project Zero No result found, try new keyword!Even a simple application, like the one described in this ... Jerry confirmed that IBM is not backing away from the WS-* stack, but that REST will be making its way into IBM's product strategy ... Wed, 15 Jun 2022 12:00:00 -0500 Killexams : Microsoft Edge Content Process has stopped working in Windows No result found, try new keyword!One of the forums pointed to IBM Trusteer ... Read: Application exe has stopped working. Ashish is a veteran Windows, and Xbox user who excels in writing tips, tricks, and features on it to ... Sat, 02 Jul 2022 22:52:00 -0500 Killexams : IBM expanding Calgary facility, will create 250 new jobs No result found, try new keyword!vice president Western Canada for IBM. Jobs created will be in artificial intelligence, hybrid cloud, 5G and security – including application developers, business and transformation analysts ... Wed, 29 Jun 2022 04:04:00 -0500 Killexams : Teaching silicon new tricks No result found, try new keyword!The greatest impact of silicon photonics will most probably be in data-communication applications ... for CMOS and the substrate used for the IBM PowerPC and the AMD Opteron microprocessors. Tue, 03 Aug 2021 02:46:00 -0500 Killexams : How to Reset the Administrator Password on an IBM ThinkPad

Jeff Grundy has been writing computer-related articles and tutorials since 1995. Since that time, Grundy has written many guides to using various applications that are published on numerous how-to and tutorial sites. Born and raised in South Georgia, Grundy holds a Master of Science degree in mathematics from the Georgia Institute of Technology.

Thu, 19 May 2022 08:27:00 -0500 en-US text/html
Killexams : Dynamic Application Security Testing (DAST) Software Market Emerging Trend, Advancement, Growth and Business Opportunities 2022 to 2029

The MarketWatch News Department was not involved in the creation of this content.

Jun 21, 2022 (Market Insight Reports) -- MarketInsightsReports has published global Dynamic Application Security Testing (DAST) Software Market research report. This report presents an in-depth analysis of the Dynamic Application Security Testing (DAST) Software Market size, share, SWOT Analysis, future progress expansion, industry growth, key development strategies and market trend dynamics which includes drivers, restraints, opportunities prevailing in the industry by product type, application, key manufacturers and key regions & countries. This is a latest report, covering the COVID-19 impact on the market.

The Dynamic Application Security Testing (DAST) Software Market is expected to register a CAGR of around 7.3%, during the forecast period 2022 to 2029.

Download Free PDF trial Report with Complete TOC and Figures & Graphs:

The report highlights the trends in the global Dynamic Application Security Testing (DAST) Software industry by looking at the market from a regional perspective, application perspective. The report provides detailed volume analysis and region-wise market size analysis of the market. The report describes the factors driving the industry's growth and highlights market channels.

Some of the key manufacturers/Key Players operating in this market include:
IBM Security AppScan Standard, Micro Focus, Checkmarx, Appknox, Netsparker, Peach Fuzzer, InsightAppSec, Micro Focus WebInspect, Veracode, Acunetix, AppSpide, Code Dx

Market Segment by Type, covers:
Cloud Based

Web Based

Market Segment by Applications, can be divided into:
Large Enterprises


Regions Covered in the Global Dynamic Application Security Testing (DAST) Software Market:

  1. South America Dynamic Application Security Testing (DAST) Software Market Covers Colombia, Brazil, and Argentina.
  2. North America Dynamic Application Security Testing (DAST) Software Market Covers Canada, United States, and Mexico.
  3. Europe Dynamic Application Security Testing (DAST) Software Market Covers UK, France, Italy, Germany, and Russia.
  4. The Middle East and Africa Dynamic Application Security Testing (DAST) Software Market Covers UAE, Saudi Arabia, Egypt, Nigeria, and South Africa.
  5. Asia Pacific Dynamic Application Security Testing (DAST) Software Market Covers Korea, Japan, China, Southeast Asia, and India.

Furthermore, the report gives insights about a couple of chief models and points of view that on a very basic level influence the business share. Further, the document recommends tricks and tips to the companies that are newly emerging in the business space and helps the investors in making important decisions.

Detailed TOC of Global Dynamic Application Security Testing (DAST) Software Market @

Table of content:

Chapter 1 Dynamic Application Security Testing (DAST) Software Market Overview

Chapter 2 Global Economic Impact on Industry

Chapter 3 Global Market Competition by Manufacturers

Chapter 4 Global Production, Revenue (Value) by Region

Chapter 5 Global Supply (Production), Consumption, Export, Import by Regions

Chapter 6 Global Production, Revenue (Value), Price Trend by Type

Chapter 7 Global Market Analysis by Application

Chapter 8 Manufacturing Cost Analysis

Chapter 9 Industrial Chain, Sourcing Strategy and Downstream Buyers

Chapter 10 Marketing Strategy Analysis, Distributors/Traders

Chapter 11 Market Effect Factors Analysis

Chapter 12 Global Dynamic Application Security Testing (DAST) Software Market Forecast

You can buy the complete report @

Key Questioned Answered in the Report:

-What is the market size and forecast of the Dynamic Application Security Testing (DAST) Software Market?

-What are major growth drivers and market trends that impacting on the global Dynamic Application Security Testing (DAST) Software Market?

-What is the competitive strategic window for opportunities in the Dynamic Application Security Testing (DAST) Software Market?

-What the market size both in terms of value and volume for global Dynamic Application Security Testing (DAST) Software Market?

-Who are leading market players and who are the new market players that operate in the global Dynamic Application Security Testing (DAST) Software Market with an estimated market share?

-What are the future investment and opportunity in the global Dynamic Application Security Testing (DAST) Software Market?

Customization of the Report:

MarketInsightsReports provides customization of reports as per your need. This report can be personalized to meet your requirements. Get in touch with our sales team, who will guarantee you to get a report that suits your necessities.

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Irfan Tamboli
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Market Insights Reports
Tel: + 1704 266 3234 | +91-750-707-8687
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About Us:

MarketInsightsReports provides syndicated market research on industry verticals including Healthcare, Information and Communication Technology (ICT), Technology and Media, Chemicals, Materials, Energy, Heavy Industry, etc. MarketInsightsReports provides Global and regional market intelligence coverage, a 360-degree market view which includes statistical forecasts, competitive landscape, detailed segmentation, key trends, and strategic recommendations.


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The MarketWatch News Department was not involved in the creation of this content.

Mon, 20 Jun 2022 19:56:00 -0500 en-US text/html

IBM Delivers Open Source Toolkit to Identify and Mitigate Bias in Advertising Technology

CANNES, France, June 20, 2022 /PRNewswire/ -- Today, leading companies committed to improving fairness in marketing campaigns. The initiative, announced at the Cannes Lions International Festival of Creativity 2022, brought together agencies, brands, and other leaders to generate awareness and take action towards mitigating bias in advertising technology. Committing organizations include IBM (NYSE: IBM), Delta Air Lines, WPP, Mindshare, 4A's, IAB and the Ad Council.

IBM Corporation logo. (PRNewsfoto/IBM)

The action is the most exact effort by IBM to drive education and awareness around the impact of bias in advertising technology. In 2021, the company launched a research initiative to explore the hypothesis that bias can exist in ad technology, which initial findings confirmed. The research also showed that mitigating bias in ad technology was possible using AI tools and resources in marketing processes. More industry participation and data collection are needed to better understand the potential impact of bias on these campaigns, but several industry leaders are demonstrating early activism by raising awareness and taking action via IBM's Advertising Fairness Pledge.

"While the risk of bias in advertising is well known, by making this commitment, these organizations are among the first in the industry to take action," said Bob Lord, IBM Senior Vice President of The Weather Company and Alliances. "Together, we are agreeing to educate ourselves and our companies and ask other industry leaders to join us in helping to mitigate bias in advertising."

Toward that effort, IBM also announced the release of its gratis Advertising Toolkit for AI Fairness 360, an open-source solution deploying 75 fairness metrics and 13 state-of-the-art algorithms to help identify and mitigate biases in discrete data sets. A playbook and trial code are also made available for ease of use. Organizations utilizing the toolkit may gain a better understanding of the presence and impact of bias on their ad campaigns, as well as the makeup of their audiences.

"Used correctly, data can help brands personalize consumer engagement and identify the most relevant touchpoints. However, we know that bias can exist in algorithms or technology, and that's why we're helping our clients to evaluate how and when to use data in a meaningful way that will benefit the customer experience," said Mark Read, CEO of WPP. "Through WPP's GroupM, we've developed the Data Ethics Compass to help clients navigate the challenges of using datasets, while IBM's new Advertising Toolkit for AI Fairness 360 will help us to better understand the potential impact of bias. Consumers rightly expect brands to use their information in a fair way and for the industry to tackle data bias collectively, which can ultimately result in increased engagement and commercial outcomes."

Bias is often unintentional, a result of human assumptions and judgments encoded into algorithms that can result in unfair targeting, exclusion of certain groups, and marketing campaign failures. Organizations taking the pledge can contribute data to ongoing studies that seek to better explain the impact of bias. According to Salesforce's 2022 State of the Connected Customer survey, nearly 62 percent of consumers surveyed reported they are concerned about bias in AI, up from just 54 percent two years prior, emphasizing the imperative for brands and agencies to better understand its impacts.

"As technology and data prevalence accelerates, the risk for bias in advertising compounds. It is our duty to address this head-on," said Adam Gerhart, Global CEO of Mindshare. "We believe the industry needs to take clear and intentional action, which is why we are committing to leverage the Advertising Toolkit for AI Fairness 360."

As the advertising industry continues to face issues related to privacy and transparency, many organizations believe that tackling bias in ad tech could be a next key area of focus for marketers. Nearly $1 trillion was spent on digital advertising globally in 2021, much of which flows through programmatic engines that segment and target specific audiences, sometimes missing large consumer groups in the process. With increasing consumer demand for transparency in how their data is used, marketers must look for new ways to remain effective. Tapping into alternative privacy-forward data sources, such as weather data, can be effective predictors of behavior that could also help rebuild trust with consumers.

"As a global brand, we know that every decision we make, whether it's about a supplier, an employee or an ad campaign, is a reflection of our values and the change we want to see in the world," said Emmakate Young, Delta's Managing Director of Brand Marketing. "We've long been focused on inclusive representation in our campaign creative, this effort allows us to go a step further to bring more inclusive representation to our campaign delivery."

To download the Advertising Toolkit for AI Fairness 360 and the associated playbook, to take the Advertising Fairness Pledge, and to learn more about how bias in advertising can negatively impact businesses and consumers, visit IBM's Bias in Advertising microsite.

To learn more about IBM Watson Advertising solutions and services, visit here.

Statements regarding IBM's future direction and intent are subject to change or withdrawal without notice and represent goals and objectives only.

About IBM
IBM is a leading global hybrid cloud and AI, and business services provider, helping clients in more than 175 countries capitalize on insights from their data, streamline business processes, reduce costs and gain the competitive edge in their industries. Nearly 3,000 government and corporate entities in critical infrastructure areas such as financial services, telecommunications and healthcare rely on IBM's hybrid cloud platform and Red Hat OpenShift to affect their digital transformations quickly and efficiently. IBM's breakthrough innovations in AI, quantum computing, industry-specific cloud solutions and business services deliver open and flexible options to our clients. All of this is backed by IBM's legendary commitment to trust, transparency, responsibility, inclusivity and service. Visit for more information.

IBM Contacts:

Luca Sesti

Clare Chachere

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Mon, 20 Jun 2022 03:00:00 -0500 en-US text/html
C1000-004 exam dump and training guide direct download
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